September 2013
EPA-456/B-13-003
AQI Toolkit for Teachers
U.S. Environmental Protection Agency
Office of Air Quality Planning and Standards
Research Triangle Park, NC 27711
Printed on Recycled Paper
-------�
-------�
Contents
Acknowledgments iii
Toolkit Overview 1
Grades K-2 9
Key Messages 11
Lesson Plans 13
What Color Is My Air Today? 15
Now You See It, Now You Don't 21
Breathing and Air Pollution 25
How Dirty is the Air We Breathe? 27
Student Handout 29
Breathe Smart! Four Things Kids Can Do 31
Grades 3-5 33
Key Messages 35
Lesson Plans 37
The Ozone Between Us 39
The Cilia Game 45
Traffic Tally 53
Trapping Air Pollution: Temperature Inversions #1 61
Save Smog City 2 from Particle Pollution 65
Student Handout 73
Breathe Smart! Four Things Kids Can Do 75
Grades 6-8 77
Key Messages 79
Lesson Plans 81
Symptoms Scenario 83
Tracking Air Quality 103
Smog Alert 121
Trapping Air Pollution: Temperature Inversions #2 125
What's Riding the Wind? 143
Save Smog City 2 from Ozone 149
Tablo of Contents i AQI Toolkit for Teachers
-------�
Student Handout 161
Be Air Quality Smart! Four Things You Can Do 163
Additional Activities 165
Introduction 167
Grades K-2 167
Circle Game 167
Match Game 168
Visible and Invisible Air Pollution 169
Milkweed Polka Dots 170
More Activity Ideas 170
Grades 3-5 171
Lung Capacity 171
Tomorrow's AQI 171
Air Quality Crossword Puzzle 172
What's Your A.Q.I.Q.? (Air Quality Intelligence Quotient): True or False 175
Concept Map 177
More Activity Ideas 177
Grades 6-8 178
Create a Timeline Linking Industrialization to Air Quality 178
Write an Essay About Living in a Biosphere 178
Write a Report as an Environmental Official 178
Write a Jingle/Song Encouraging People to Improve Air Quality 178
Take Photographs on Air Quality 178
Research "Green" Vehicles 178
Resources for Teachers 181
Air Pollution and Health Facts 183
What Is the Air Quality Index? 186
Additional Air Quality Resources 188
Tablo of Contents ii AQI Toolkit for Teachers
-------�
Acknowledgments
Thanks to the following North Carolina teachers who reviewed earlier versions of this Toolkit
and provided insightful suggestions for making it more effective:
Keith Bamberger, North Carolina Department of Environment and Natural Resources
Marti Canipe, B'nai Shalom Day School
Olivia Lee, Corinth Holders Elementary School
Dr. Richard Thomas, North West High School
Acknowledgments iii AQI Toolkit for Teachers
-------�
Notice
This document has been reviewed in accordance with U.S. Environmental Protection Agency
policy and approved for publication. Mention of trade names or commercial products does
not constitute endorsement or recommendation for use.
NotioQ iv AQI Toolkit for Teachers
-------�
Toolkit OVQFVIQW
Goo<
Moderate
Unhealthy for Sensitive Groups
Unhealthy
Very Unhealth
Grades K-2
-------�
-------�
Toolkit Overview
Introduction to the AQI and This Toolkit
Children are one of the sensitive groups at risk for health effects from air pollution, in part
because their lungs are still developing. The Air Quality Index (AQI) is an important tool for let-
ting children know when air quality in their area is unhealthy and how they, their families, and
communities can protect their health. The AQI uses a color-coded scale and maps to provide
daily air quality information. Check the AQI atwww.airnow.gov, download the AirNow App, or
install the AirNow Widget on your website. Many local newspapers and television and radio
stations also present the AQI. You can also sign up for air quality emails at: www.airnow.gov/
enviroflash.
Compiled by the U.S. Environmental Protection Agency (EPA), this Toolkit provides teachers
with easy-to-use and engaging lesson plans, additional activities, and other resources to teach
students about the connections between air quality, health, weather, and other related science
topics, as well as actions students can take to protect their health and reduce air pollution.
The lesson plans in this Toolkit meet Next Generation Science Standards and can be easily
incorporated into school curriculums.
What's In This Toolkit?
This Toolkit includes:
m Key messages-Bullet point lists of key air quality messages for each age group.
Lesson plans appropriate for:
Grades K through 2
Grades 3 through 5
Grades 6 through 8
Additional activitiesBrief descriptions of other activities about air quality that teachers
can conduct with students.
Handouts-Simple one-page, age-appropriate handouts for students on air quality that
highlight how they can protect their health and the environment.
Background information for teachers on air quality, the AQI, and related health impacts,
including:
- Fact Sheets on:
Air Pollution and Health
The Air Quality Index
- Bibliography of curricula, lesson plans, activities, publications, and Web sites
Toolkit OvorviQw 3 AQI Toolkit for Teaohors
-------�
Teachers' Guide
The Key Messages in the Toolkit provide an overview of air quality issues covered in the lesson
plans. The Background Summary section of each lesson plan offers a brief synopsis of the
lesson's topics and procedures; these sections are written in easy-to-understand language
to assist teachers in communicating relatively complex environmental and health topics to
students. For more information, teachers can review the Toolkit's fact sheets. The age-appro-
priate handouts can be distributed at the beginning or end of a lesson, or independently, to
let students know "at a glance" what they can do to protect themselves and the environment
when air quality is unhealthy.
Two pollutants in particular, ground-level ozone and particle pollution, are sometimes pres-
ent at unhealthy levels in many parts of the United States. The Toolkit focuses on these two
air pollutants, with information on sources of these pollutants, how to use the AQI to find out
current levels of these pollutants in particular locations, and ways to improve air quality and
protect our health.
Quick Prep
Read the Key Messages and fact sheets in this Toolkit to familiarize yourself with air qual-
ity issues, the AQI, the health effects of air pollution, and ways to protect air quality.
Visit EPA's AIRNow Web site at www.airnow.gov for further information about the AQI and
to obtain local air quality information.
Review the table of Next Generation Science Standards and Toolkit Lesson Plans (next
page) to help you decide which lesson plan(s) to use.
Read the Background Summary sections of the Tool kit lesson plans to help you select and
prepare for lessons.
Checklist:
Copy of lesson plan(s) you will be conducting with your class.
Copies of Student Worksheets, as needed, and Teacher Answer Sheets.
Internet access, as needed.
Copies of age-appropriate handout for each student.
Materials needed for the selected lesson plan(s).
Toolkit OvorviQw 4 AQI Toolkit for Teaohors
-------�
Next Generation Science Standards
The lesson plans in this toolkit meet the following Next Generation Science Standards (www.
nextgenscience.org/next-generation-science-standards), as verified by an education expert:
Lesson Plans
Grades K-2
Next Generation Science Standards
What Color Is My Air Today?
Engineering Design
Interdependent Relationships in Ecosystems
Now You See It, Now You Don't
Engineering Design
Interdependent Relationships in Ecosystems
Breathing, Playing Outside,
and Air Pollution
Engineering Design
Interdependent Relationships in Ecosystems
How Dirty is the Air We Breathe?
Engineering Design
Interdependent Relationships in Ecosystems
Grades 3-5
The Ozone Between Us
Energy
Interdependent Relationships in Ecosystems
Matter and Energy in Organisms and Ecosystems
Earth and Human Activity
Engineering Design
The Cilia (not fiilly!) Game
Energy
Interdependent Relationships in Ecosystems
Engineering Design
Matter and Energy in Organisms and Ecosystems
Toolkit OvorviQw
AQI Toolkit for Teaohors
-------�
Lesson Plans
Grades 3-5 (continued)
Next Generation Science Standards
Traffic Tally
Energy
Interdependent Relationships in Ecosystems
Engineering Design
Trapping Air Pollution:
Temperature Inversions #1
Weather and Climate
Earth and Human Activity
Engineering Design
Matter and Energy in Organisms and Ecosystems
Save fimog City 2 from
Particle Pollution
Weather and Climate
Energy
Interdependent Relationships in Ecosystems
Engineering Design
Matter and Energy in Organisms and Ecosystems
Grades 6-8
Symptoms Scenario
Interdependent Relationships in Ecosystems
Human Impacts
Engineering Design
Tracking Air Quality
Chemical Reactions
Human Impacts
Weather and Climate
Engineering Design
Toolkit OvorviQw
AQI Toolkit for Teaohors
-------�
Lesson Plans
Grades 6-8 (continued)
Next Generation Science Standards
Smog Alert
Human Impacts
Earth's Systems
Weather and Climate
Engineering Design
Trapping Air Pollution:
Temperature Inversions #2
Human Impacts
Weather and Climate
Engineering Design
What's Riding the Wind?
Human Impacts
Engineering Design
Save fimog City 2 from Ozone
Human Impacts
Engineering Design
Toolkit OvorviQw
AQI Toolkit for Teaohors
-------�
-------�
Unhealthy tor Sensitive Groups
Grades K-2
AQI Toolkit for Teaohors
-------�
-------�
Key Messages: Grades K-2
Breathing dirty air is not good for people. For example: You might
feel like it's harder to breathe, you might cough, or your chest might
feel tight.
AIR QUALITY INDEX
You can help protect your health when the air is dirty. Here are three things you can do.
1. Find out how clean your air is each day.
You can do this by checking the AQI, just like checking the weather report. The AQI
(or the Air Quality Index) uses colors to tell you how clean or dirty the air is. For
example, green means the air is clean. Red means the air is unhealthy.
You can always find the AQI on the Internet at a site called AIRNow at: www.
airnow.gov. You also might hear about the AQI on TV during the weather forecast
or on the radio, or you might see it on the weather page in the local newspaper.
Tell your parents about the AQI so they can check how clean or dirty the air is.
2. If you play outside when you know the air is polluted, you can protect your health by
taking it easier. For example, walk instead of run, take breaks often, or play outside at
another time or on another day when the air is cleaner.
3. If you notice any signs when you are playing outside like coughing, pain when you
take a deep breath, chest tightness, or wheezing, stop playing and tell an adult.
If you have asthma, pay special attention on polluted days. If you think you or a
friend may be having an asthma attack, tell an adult.
Key Messages 11 AQI Toolkit for Teachers
-------�
-------�
Plans
13
-------�
-------�
What Color Is My Air Today?
Learning Objectives
Students will:
Understand how breathing the air can affect people's bodies and health.
Describe how colors and numbers can represent different classifications of
something, such as levels of air quality.
Understand that air pollution, driving, and health are connected.
Grade Level: Grades K-2
Estimated Time: 30 minutes
Background fiummary
Some days, the air is clear and smells fresh and clean.
Clean air is air that has no harmful levels of pollutants
(such as dirt and chemicals) in it. Clean air is good
for people to breathe. However, on a hot day with no
wind-especially in some cities-the air can feel heavy
and may have a bad smell. Sometimes, the air can
even make your chest feel tight, or make you cough.
When too much dirt or too many chemicals get into
the air, the air is dirty, or polluted. Polluted air is not
for people to breathe.
Scientists measure pollution in the air across the
country. Then they use something called the Air Qual-
ity Index, or AQI for short, to tell people how clean or
dirty the air is each day in different places. The AQI
uses colors, words, and numbers to tell you about the Vocabulary
air.
AQI color posters (online or printed, see Step 6)
Key Questions
What is air pollution? (Answer:Air pollution is
when too much dirt or chemicals get into the air.)
What is the Air Quality Index, or AQI? (Answer/The
AQI tells us how clean or dirty the air is each day.)
How can you and your family help reduce air
pollution? (PossibleAnswers: Walk more, ride
bikes, or carpool. [Carpooling is when more than
one person not related to each other share a ride
somewhere.] People can also take the bus, train, or
subway to reduce air pollution instead of driving
in their cars.)
Using EPA's online Air Quality Index color game, stu-
dents will learn that air quality can be classified ac-
cording to different levels of pollution, and that these
levels can be represented by colors and/or numbers.
They will also learn that they can find out what the
Air Quality Index is on any given day and understand
what it means for people's outdoor activities. This
lesson also introduces students to different types of
transportation and ways that transportation choices
can affect air quality.
Materials Needed
Internet access (preferable) (or, print version of AQI
Color Game included with this lesson)
Computer printer, preferably color, if not conduct-
ing activity online
Chart of AQI colors and their meanings (simplified
print version included)
Air Pollution-Occurs when too much dirt or too
many chemicals get into the air and make it dirty.
Air Quality Index-Colors and numbers used to tell
how clean or dirty the air is.
fiteps
1. Have the class play the AQI Color Game online at:
www.airnow.gov/index.cfm?action=aqikids.games
easy or hand out copies of the game (Easy ver-
sion).
It may take a minute for the color chart to load
onto your computer.
(Note: The AQI Color Game is available online at
different levels: easy, medium, and hard. First have
students play the "easy" game, which discusses
AQI colors only. Then add a discussion of the AQI
numbers, as discussed in the "Steps" below.
AQI Toolkit For Teachers
15
What Color Is My Air Today?
-------�
The medium and hard versions of the game are
appropriate for students in Grades 3-5.)
If printing, also print out the answer key for the
teacher. It is best if the student game can be
printed in color.
2. Discuss the AQI colors and their meanings with
students. Tell students that each day, the AQI
is one of these colors. The colors tell you how
healthy the air is to breathe that day. The colors go
from Green to Yellow to Orange to Red to Purple,
with each color telling you that the air is less clean
than the color before.
(/Vote: If students ask, you can tell them that the
last AQI color, Maroon, which represents the worst
air quality, is usually not included with the other
AQI colors because air quality in the U.S. has not
been Maroon in many years. This is probably be-
cause people have been working hard to clean up
the air.)
Give students the following simplified chart of the
AQI colors and their meanings, and read the chart
to them.
3. Tell students to look at their AQI Color Game
Student Worksheet. With the help of the chart of
AQI colors and meanings you gave them in Step
#2, tell students to draw a line from the AQI words
on the left side to the correct color on the right
side of the worksheet. For younger students (e.g.,
kindergarten), the teacher can read the words and
ask students which words go with which colors.
For older students (e.g, Grade 2), the teacher may
need to assist students in reading and understand-
ing some of the key words, as discussed in the
table above.
4. Discuss the correct answers using the Teacher
Answer Sheet.
5. Add a discussion of the AQI numbering system.
An index uses numbers to tell people how good
or bad something is. For example, you might say
your school lunch is a 1 (very good) or a 5 (yucky).
The Air Quality Index uses numbers from 0 to 500.
These numbers are used to decide the AQI color for
a particular day. On days measuring less than 100,
the air is clean. If the air is dirtier, the numbers get
bigger. On days measuring more than 100, the air
can be bad for you to breathe.
If Color is... What This Means for Outdoor Aotiviti
Green
The air is "good" and it's a great day to be active outside!
YsIIow
The air is "moderate" - it's fine for most people to be ac-
tive outside. However, people who are unusually sensitive
to air pollution may notice symptoms such as coughing or
shortness of breath. These are signs to take it easier.
OrangQ
The air is "unhealthy for sensitive groups." This group
can include people with heart or lung problems (such as
asthma), kids, and older grown-ups, who should take it a
little easier.
The air is "unhealthy." Everyone should take it a little
easier or spend less time being active outside.
The air is "very unhealthy." People should be active in-
doors on purple days.
For more complete Air Quality and Outdoor Activity Guidance for Schools, visit www.epa.gov/airnow/school
flaa/school-chart-2013.pdf
AQI Toolkit For Teachers
16
What Color Is My Air Today?
-------�
Here is how the AQI numbers match up with the
AQI colors:
AQI Numbers AQI Colors
Oto50
51 to 100
101 to 150
Croon
Yellow
Orango
6. Have students view the six AQI color posters
online, or print out several sets of the posters and
pass them around the class, available from the EPA
AIRNow website at: www.epa.gov/airnow/aqikids/
pdffiles/posters.pdf
It is best if these posters can be printed in color.
7. Discuss the six posters in sequence (from Green
to Purple), which will reinforce the lesson thus far,
including both AQI colors and numbers.
8. Tell students how they and their families can help
reduce air pollution. Most cars contribute to air
pollution. To reduce air pollution, students and
their families can walk more, ride their bikes, or
carpool. (Carpooling is when more than one per-
son share a ride somewhere.) People can also take
the bus, train, or subway to reduce air pollution
instead of driving their cars.
Adaptation
For older students (Grades 3-5), play the Medium
and/or Hard versions of the AQI Color Game. Add
more in-depth discussion from the EPA Web site at:
www.epa.gov/airnow//aqikids/pdffiles/aq irefer.pdf
For Further Exploration
If using the Internet, go to www.airnow.gov and under
the map find "Local Air Quality Conditions and Fore-
casts" and choose a state or click on "Select by map."
Review the information for the nearest city with the
students. You can click on a city name for more de-
tailed information. Ask students what the air quality is
for today and expected to be tomorrow.
Have students try to find and cut out the Air Qual-
ity Index in the newspaper and bring it in to class to
discuss; the AQI can often be found on the weather
page in newspapers.
AoknowlQdgmQnts/RQSOuroQS
U.S. EPA. Air Quality Index Kids Page at:
www.airnow.gov/index.cfm?action=aqikids.games
Noxt GonQration
Standards
Engineering Design
Interdependent Relationships in Ecosystems
AQI Toolkit For Teachers
17
What Color Is My Air Today?
-------�
Student Worksheet: What Color Is My Air Today?
Name:
Easy GamQ
To play this garriQ, first print this pago and thon draw a lino from tho AQ1
word(s) on tho loft sido to tho correct color on tho right.
1. Good
2. ModoratQ
3. Unhoalthg for fionsitivQ Groups
4. Unhoalthy
5. Vorg Unhoalthg
GrQQn
YsIIow
OrangQ
Rod
PurplQ
AQI Toolkit For Teachers
18
What Color Is My Air Today?
-------�
Teacher Answer Sheet: What Color Is My Air Today?
AQI Color GamQ
Easy GamQ
1. Good
2. Moderate
YQ||OW
3. Unhealthy for fignsitivQ Groups
4. Unhoalthy ^^^^^^^^^
5. Vory Unhealthy
Orange
Red
Purple
AQI Toolkit For Teachers
19
What Color Is My Air Today?
-------�
-------�
Now You fiee It, Now You Don't
Learning Objectives
Students will:
Observe differences between gases and particles, in the context of air
pollution.
Identify common gases and particles in the air that can contribute to air
pollution.
Grade Level: Grades K-2
Estimated Time: 30 minutes
Background fiummarg
Sometimes the air is clean, and sometimes it's dirty.
When the air is dirty, it's called pollution. There are
different kinds of air pollution. Some air pollution
is made of particles, such as small pieces of dirt or
dust. This is called particle pollution. Other kinds of
air pollution are gases, which usually you cannot see.
Ozone near the ground where we can breathe it in is
a harmful air pollutant that is a gas. But ozone many
miles above the Earth (in the stratosphere) is good
for us. It helps protect us from sunburn. You can't see
ozone in the air. The cars that we ride in can make
air pollution-both particle pollution and gases like
ozone. If people walked, bicycled, or took buses or
trains more often instead of driving places, fewer cars
would be on the road. This is one way to make less air
pollution.
In this lesson, students observe differences between
gases and particles in the air. Water represents air.
Milk in water acts like an air pollutant that is a gas.
Pepper in water acts like particle pollution in the air.
Students then identify common gases and particles in
the air that can contribute to air pollution.
Materials Needed
Two clear glass bowls (if teacher demonstrates) or
2 large clear plastic cups per group (if students
perform activity)*
One tablespoon of milk for one bowl or cup
One teaspoon of pepper for the other bowl or cup
One plastic spoon for each bowl or cup
Water
Student Worksheet (included)
Teacher Answer Sheet (included)
*Note: If the teacher does this as a demonstration
with the clear glass bowl, it helps to have a light
or white paper behind the pepper so it is easier to
observe. Alternatively, students can do this in small
groups using clear disposable cups instead of the
glass bowl.
Keg Questions
What is the water supposed to be in this experi-
ment? (Answer: Air.)
(During Step 2)-What kind of air pollution do you
think the milk is like when it combines with the
water: a gas, or particle pollution? (Answer:A gas)
(During Step 3)-What kind of air pollution do you
think the pepper is like when it combines with
the water: a gas, or particle pollution? (Answer:
Particle pollution)
Gas-Something that is not a solid or a liquid. A gas
doesn't have a particular shape, and usually is invis-
ible.
Particle-A small bit of something, such as dirt or
dust.
Pollution-Harmful substance put into the environ-
ment, for example into the air, water, or soil.
Ozone-A gas. When ozone is near the ground, it is
bad, and is air pollution. Ozone high up in the atmo-
sphere is good, and helps protect us from sunburn.
fiteps
Review vocabulary as needed and age-appropriate.
Divide the class into small groups (if the teacher is
not conducting the activity for the entire class). Fill
the clear glass bowl or clear disposable cups half
full with water. Tell students to think of the water
AQI Toolkit For Teachers
21
Now You See It, Now You Don't
-------�
as "air." Tell students to carefully look at the bowls
(or cups) to see what happens as you add things
to the water.
2. Add one tablespoon of milk to one of the bowls or
cups of water and stir to mix. Then ask: What hap-
pened to the milk when it was added to the water?
(Answer:It mixed with the water, or a similar an-
swer.) Then ask: What kind of air pollution did the
milk act like in the water-air pollution that is a
gas, or particle pollution in the air? (Answer:Gas.)
3. Now add one teaspoon of pepper to the other
bowl or cup of water and stir. Then ask: What
happened to the pepper when it was added to
the water? (Answer: It did not mix with the water;
it stayed separate from the water, or a similar
answer.) Then ask: What kind of air pollution did
the pepper act like in the water-air pollution that
is a gas, or particle pollution in the air? (Answer:
Particle pollution.)
4. Ask students: If the bowls or cups were left on a
shelf all day, which do you think would sink to the
bottom of the bowl or cup-the pepper or milk?
(Answer: Pepper.) Ask: Would it be easier to get the
milk or the pepper out of the water? (Answer: Pep-
per.) Remind students that the milk is like air pol-
lution that is a gas, and the pepper is like particle
pollution in the air.
5. Ask students: Do you think it would be easier to
get gases or particles out of the air? (Answer:
Particles.) Why?
6. Use the Student Worksheet, first for word recogni-
tion, then have students fill out the Worksheet as
best they can, with teacher assistance.
(a) Begin this step as a word recognition task: For
older students who can read (e.g., Grade 2),
tell students to highlight or circle some of the
words they recognize on the Student Work-
sheet. For younger students, the teacher can
use an overhead transparency or make word
cards to read, and lead a class discussion.
(b) Next, tell students to fill out the Worksheet
for the highlighted or circled items. Tell them
to check off whether they think the things
listed in the first, left-hand column can make
particle pollution (2nd column), a gas that is
air pollution (3rd column), or both particle
pollution and a gas (last column).
Review the Student Worksheets with the class.
(The Teacher Answer Sheet provides the correct an-
swers.)
Adaptation
Students could receive a star or sticker for answering
correctly.
For older students, introduce the concepts of solu-
tions (i.e., milk and water) and suspensions (i.e., pep-
per and water) in scientific terms. Also, see the lesson
plan, "Parts Per Million," on the Rutgers University
Web site listed below.
For Further Exploration
Have the students research some of the types of air
pollution listed on the Student Worksheet.
AoknowlQdgmQnts/RQSOuroQS
Suspended Particulates Lab Lesson Plan. Rutgers
Engineering, contributed by D. Gioffre, Hillsborough
Middle School, Hillsborough, NJ 08844 at:
www.engineeringplanet.rutgers.edu
Noxt GonQration
Standards
Engineering Design
Interdependent Relationships in Ecosystems
AQI Toolkit For Teachers
22
Now You See It, Now You Don't
-------�
Student Worksheet: Now You SQQ It, Now You Don't
Name:
Air Pollution ...is partiolo
from... pollution?
...a gas?
.both partiolQ
pollution and a
Car tail pipes
Cow burps
Dirt
Dust
Factory smoko
stacks
Fireplaces
Forest firQS
Volcano ash
AQI Toolkit For Teachers
23
Now You See It, Now You Don't
-------�
Teacher Answer Sheet: Now You SQQ It, Now You Don't
Air Pollution ...is partielQ
from... pollution?
...a gas? ...both partiolQ
pollution and a
Car tail pipes
Cow burps
Dirt
Dust
Factory smoko
stacks
Fireplaces
Forest firQS
Volcano ash
>/
-/
S
-------�
Breathing and Air Pollution
Learning Objectives
Students will:
Observe how breathing changes with physical activity.
Learn how air pollution can affect breathing and our health.
Grade Level: Grades K-2
Estimated Time: 30 minutes
Background fiummarg
Most living things, including people, need the oxygen
in air to breathe. When we're more active, like when
we're running, bicycling, or jumping, our bodies need
more oxygen and air. We may notice that our breath-
ing is faster and we take deeper breaths when we're
active. This faster and deeper breathing is how our
body takes in more oxygen and air when needed,
which can help make us healthier.
Breathing dirty, or polluted, air is not good for people.
For example, it might make you cough, or you might
feel like it's harder to breathe. If an adult tells you the
air is polluted while you're playing outside, you can
protect your health by taking it a little easier. For ex-
ample, walk instead of run, take breaks often, or play
outside at another time or on another day when the
air is cleaner. If you have trouble breathing on days
with a lot of air pollution, tell an adult.
This lesson involves having a few students count their
breaths while at rest and again after jumping up and
down. The class will discuss differences in breathing
when at rest and after jumping, and how students can
protect their health from air pollution.
Matorials Needed
Stopwatch, watch, or clock with second hand
Blackboard
Handout (included)
Kog Questions
Does a person breathe faster when active or when
sitting still? (Answer: When active.)
How can faster and deeper breathing improve our
health? (Answer: It gives our bodies more oxygen.)
How can we protect our health from air pollution?
(Answer:We can take it easier on days when there
is a lot of air pollution. We can walk instead of
run, take more breaks, or play outside when the air
is cleaner. It you have trouble breathing on days
with a lot of air pollution, tell an adult.)
Vooabularg
Pollution-Things put into the air that can make the
air dirty.
Improve-To make better.
Protect-To keep from being hurt.
fitgps
1. Tell the class that they are going to see how being
active affects breathing.
2. Pick three student volunteers. (/Vote: Do not pick
students who are not feeling well or have health
conditions that restrict exercising.) Write their
names on the blackboard horizontally so you can
add information in columns under each name.
3. Have all three student volunteers seated at the
front of the class. Tell the volunteers to breathe
normally. Tell the volunteers and the class that
when you say "Go," the volunteers are going to
count how many breaths he or she takes in 30
seconds, when he or she is just sitting and is not
active, until you say "Stop." Remind the volunteers
to take normal breaths.
4. Say "Go," remind the volunteers to start counting,
and watch the clock for 30 seconds.
5. After 30 seconds, say "Stop" and ask the volunteers
how many breaths each of them took. Record the
numbers on the blackboard under the students'
names.
AQI Toolkit For Teachers
25
Breathing and Air Pollution
-------�
6. Now tell the volunteers and the class that when
you say "Go" this time, the volunteers are go-
ing to jump up and down for 30 seconds. Tell the
volunteers that when you say "Stop jumping and
start counting," they should stop jumping and
immediately start counting their breaths until you
say "Stop counting."
7. Say "Go." Student volunteers should start jumping.
Watch the clock.
8. After 30 seconds, say "Stop jumping and start
counting."
9. After another 30 seconds, say "Stop counting." Ask
volunteers for the number of breaths they count-
ed, and write these numbers on the blackboard
under the students' names.
10. Ask the class what they notice about the results.
Discuss how the results are the same and differ-
ent, and how the results show that breathing is
faster and deeper when people are active than
when they are not active. Also discuss how faster
and deeper breathing when we're active is good
for our health because it brings more air and oxy-
gen into our bodies when our bodies need it.
11. Tell students that breathing dirty, or polluted, air is
not good for people, and can make people not feel
well. For example, it might make you cough, or you
might feel like it's harder to breathe.
Tell students that on days when there is a lot of
air pollution outside, they can help protect their
health by taking it easier. They can walk instead of
run, take more breaks, or play outside when the
air is cleaner. If they have trouble breathing on
days with a lot of air pollution, they should tell an
adult.
12. Distribute the handout, Breathe Smart! Four Things
Kids Can Do. (See Grades K-2 Handout in this
Toolkit.)
Adaptation
Have all students in the class count their breaths at
rest and after jumping. Take a few responses from the
class, write them on the blackboard, and discuss the
differences in breathing at rest and after jumping.
(Note: If you feel that your classroom does not have
enough room for jumping, or that it might be too
disruptive, students can instead stand up and sit down
repeatedly for one minute.)
Have students play a quick game of basketball or walk
quickly up and down a flight of stairs a few times
rather than jumping up and down in place.
For Further Exploration
Explain that cars use gasoline and are one big source
of air pollution. Discuss that one way to reduce air
pollution is by going places with adults in ways other
than cars, such as walking, bicycling, or taking a bus
or train. This would reduce the number of cars on the
road, which would reduce the amount of air pollution
from cars.
AoknowlQdgmQnts/RQSOuroQS
Adapted from the California Air Resources Board, The
KnowZone at: www.arb.ca.gov/knowzone/knowzone.
htm
Also see: U.S. Environmental Protection Agency's AQI
(Air Quality Index) for Kids at: www.airnow.gov/kids
Noxt GonQration
Standards
Engineering Design
Interdependent Relationships in Ecosystems
AQI Toolkit For Teachers
26
Breathing and Air Pollution
-------�
How Dirty Is the Air WQ Breathe?
Learning Objectives
Students will:
Make a simple air pollution tester.
Collect and observe air pollution and discuss the findings.
Grado LQVQ!: Grades K-2
Estimated Time: 30 minutes (indoors), 30 minutes (outdoors)
Background fiummary
The air around the Earth is mostly invisible. Some-
times the air is dirty, or polluted. Most of the time
polluted air is also invisible, but sometimes you
can see air pollution. Air pollution that you can see
comes from things like the tailpipes of cars and the
smokestacks of factories. Sometimes you can see air
pollution near busy roads and factories. Air pollution
can also come from burning wood in fireplaces and
wood-burning stoves, and even from forest fires and
volcanoes. Sometimes the wind can blow air pollu-
tion from where it was created to other places far
away. Breathing polluted air is not good for people's
health-it can make it harder to breathe, and for
people with heart or lung problems, it can make their
problems worse.
In this activity, students will make pollution testers,
collect samples of air pollution outdoors, and discuss
how air pollution can affect health and what we can
do to reduce air pollution.
Materials Needed
Double-sided masking tape
Half gallon or larger milk cartons filled with sand
(optional)
White paper for each child or group of children
Adult assistants for outdoor placement of tape
(and milk cartons if using them)
Key Questions
Do you think air pollution is invisible or can you
see it? (Answer: Both. Some air pollution is invis-
ible, some you can see.)
Do you think that people's health can be affected
by air pollution? How? (Answers: Yes. People might
have more trouble breathing. Some pollutants can
make heart or lung problems worse.)
How can we help keep the air clean? (Possible
answers: Instead of driving places, we can walk,
bicycle, or take a bus or train, with an adult, when
it's safe to do so.)
Vocabulary
Invisible-Impossible to see.
Visible-Possible to see.
fiteps
1. Tell students: As we look outside, we often see a
clear blue sky. Where is air pollution? If using milk
cartons, tell students that they are going to make
a simple tester for air pollution so we can see it. If
using double-sided tape only, tell students that the
class is going to go outside to test the air to see
air pollution.
2. Have students make the milk carton testers, if us-
ing them. Divide the class into groups with adult
assistants and give the groups their materials.
With the double-sided masking tape, have each
group wrap the tape around the sand-filled milk
carton, and make sure the tape is securely at-
tached. If using double-sided masking tape only
(no milk cartons), give each group's adult assistant
a roll of the tape.
3. Take the class outside. With adult assistants, have
students place the milk cartons outdoors on posts,
fences, walls, and/or window sills in various loca-
tions. If using pieces of double-sided masking tape
only, place tape on trees in various locations and
on other surfaces on which the tape will stick. If
you can, place some milk cartons or double-sided
tape near a road and some in a protected location
away from roads. Try to pick places where the milk
AQI Toolkit For Teachers
27
How Dirty Is The Air We Breathe?
-------�
cartons won't be knocked over by pets or children's
play. Leave them for 24 hours.
4. The next day, collect the milk cartons and double-
sided pieces of tape, and make labels of the tester
locations. Help students remove the tape from the
milk cartons and lay the tape, exposed side up, on
white paper. Place location labels next to each cor-
responding sample.
5. Have the class examine the air pollution collected
on the testers.
6. Discuss the findings. Ask: Did your tester collect
any air pollution? How does your tape compare
to those of the other groups? In what places does
the air seem to be the dirtiest? (Possible answers:
Near busy roads, near factories.) Why do you think
those areas might have the most air pollution?
(Possibleanswers: Because cars and factories make
pollution.)
7. Discuss possible health effects of breathing air
pollution. Soy: We have seen air pollution where
we first didn't see any. Clean air is important for us
to breathe to be healthy. Breathing in dirty, or pol-
luted, air can make us less healthy-it can make it
harder to breathe, and some pollutants can make
heart or lung (especially asthma) problems worse.
8. Discuss what people can do to reduce air pollu-
tion. Ask: What can we do to keep the air clean?
(Possible answers: People could drive less and walk
more, such as to school, with adults. We can turn
off lights, TVs, and computers when we're not
using them; this saves energy and keeps the air
cleaner. Factories could reduce their pollution.)
Adaptation
For Grades 3-5, students can write a paper and explain
the differences they observed among the pieces of
tape.
For Further Exploration
Have students take their tester home (along with in-
structions for parental assistance) to test for pollution
for 24 hours. Students can then report their findings
to the class the next day.
Ask students to leave the tester outside for a week
(sheltered from precipitation); students can report re-
sults to the class each day and at the end of the week.
AoknowlQdgmQnts/RQSOuroQS
Texas Commission on Environmental Quality at:
www.tceq.state.tx.us
Noxt GonQration fioionoQ
Standards
Engineering Design
Interdependent Relationships in Ecosystems
AQI Toolkit For Teachers
28
How Dirty Is The Air We Breathe?
-------�
fitudont Handout
29
-------�
-------�
Breathe Smart!
FourThings
Can Do
Find out what AQI color for today is where you live.
Visit the AIRNow Web site at www.airnow.gov.
Tell your parents about the AQI so they can help you.
Protect your health when the air is dirty.
Take it easier when you play outside.
If it feels harder to breathe, tell an adult.
Help reduce pollution.
Turn off lights, TVs, and computers
when not using them.
Walk, bike, or take a bus or train with
an adult. But remember, your safety
always comes first!
Visit the AQI kids' site at www.airnow.gov
(click on "Kids" in the "Learning Center")
-------�
-------�
Unhealthy tor Sensitive Groups
-------�
-------�
Key Messages: Grades 3-5
Breathing dirty air is not good for people. For example: You might
feel like it's harder to breathe, you might cough, or your chest might
feel tight.
AIR QUALITY INDEX
You can help protect your health when the air is dirty. Here are three things you can do.
1. Find out how clean your air is each day.
You can do this by checking the AQI, just like checking the weather report. The AQI
(or the Air Quality Index) uses colors to tell you how clean or dirty the air is. For
example, green means the air is clean. Red means the air is unhealthy.
Check the AQI at www.airnow.gov, download the AirNow App, or sign up for air
quality emails at www.airnow.gov/enviroflash. Many local newspapers and televi-
sion and radio stations also present the AQI.
Tell your parents about the AQI so they can check how clean or dirty the air is.
2. If you play outside when you know the air is polluted, you can protect your health
by taking it a little easier. For example, walk instead of run, take breaks often, or play
outside when the air is cleaner.
3. If you notice any signs when you are playing outside like coughing, pain when you
take a deep breath, chest tightness, or wheezing, stop playing and tell an adult.
If you have asthma, pay special attention on polluted days. If you think you or a
friend may be having an asthma attack, tell an adult.
Key Messages 35 AQI Toolkit for Teachers
-------�
-------�
Plans
37
-------�
-------�
Tho OZORQ Between Us
Learning Objectives
Students will:
Discover that ground-level ozone occurs in many areas of the country.
Discover that ground-level ozone problems are often associated with
high-population centers.
Grade Level: Grades 3-5
Estimated Time: 30 minutes
Background fiummarg
Ozone is a gas consisting of three oxygen atoms.
Ozone can be good or bad depending on where it is
in the atmosphere. "Good" ozone occurs naturally in
the stratosphere approximately 10 to 30 miles above
the earth's surface. This good ozone forms a layer
that protects life on earth from too much of the sun's
harmful ultraviolet rays.
Ozone at "ground-level"-that is, in the earth's lower
atmosphere-is bad because it pollutes the air. Ozone
pollution can cause people to have breathing prob-
lems. An easy way to remember these differences
about ozone is: "good up high, bad nearby."
Ground-level ozone comes mostly from motor ve-
hicles that we drive, factories that make products we
use, and power plants that produce our electricity.
Ozone pollution is not produced directly from these
sources. Rather, heat and sunlight "bake" certain other
chemicals (nitrogen oxides, or N0x, from vehicles
and power plants; and volatile organic compounds,
or VOCs, from gasoline-powered cars, factories, and
products such as paints), which causes a chemical
reaction and produces ozone. Weather is an impor-
tant factor in ozone formation-more ground-level
ozone usually is formed in summertime, when there is
the most heat and sunlight. Also, wind can transport
ozone "downwind" to other areas far from where it
was formed, and pollute those areas.
This Internet activity allows students to explore the
different concentrations of ground-level ozone in
various areas of the country and develop an under-
standing of why more ground-level ozone may occur
in certain areas.
Materials Needed
Printed color copies of the two AQI color charts on
the Air Quality Index (AQI)-A Guide to Air Quality
and Your Health Web page; or, students can access
the charts from the Internet at:
www.airnow.gov/index.cfm?action=aqibasics.aqi
Internet access or color copies of the Ozone Map
at: http://ciese.org/curriculum/airproj/airquality-
map/
Student Worksheet (included)
Teacher Answer Sheet (included)
Keg Questions
Do people contribute to ground-level ozone pol-
lution when they drive or ride in cars? (Correct
answer:Yes) When they ride bicycles? (Correct
answer: No) When they walk? (Correctanswer: No)
In what parts of the country do you think ozone
pollution might be the worst? Why? (Possible
answers: In cities; in places where the wind has
blown the ozone pollution; in places with a lot of
cars and/or factories.)
Vooabularg
Chemical reaction-A change that takes place when
two or more substances interact to form a new sub-
stance.
Ozone-A gas that occurs both in the Earth's upper
atmosphere and at ground level. Ozone can be "good"
or "bad" for people's health and the environment,
depending on its location in the atmosphere. High
up in the atmosphere, ozone helps protect people's
health from too much ultraviolet radiation from the
sun. Near the Earth's surface, ozone is an air pollutant
that can result in breathing difficulties.
Air Quality Index (AQI)-A color-coded scale that
provides daily air quality and health information.
AQI Toolkit For Teachers
39
The Ozone Between Us
-------�
1. If you are using printed color copies of the AQI
color charts on the Air Quality Index (AQI)-A Guide
to Air Quality and Your Health Web page, hand
them out to the class. If you are using the Internet
to access the charts, tell students to go to:
www.airnow.gov/index.cfm?action=aqibasics.aqi
(The rest of the page can be used for additional
background information.)
2. Explain to the class what the Air Quality Index (AQI)
is while having them look at the AQI Color Chart.
Tell students that the Air Quality Index, or AQI, is
an index for reporting daily air quality. It uses a
simple color-coded scale to tell you how clean or
polluted the air in a particular location is, and how
you can protect your health at different levels of
pollution. There is an AQI for five pollutants, one
of which is ground-level ozone, which we are
discussing in this lesson. The AQI is like a yardstick
that runs from 0 to 500. The higher the AQI value,
the greater the level of air pollution and the great-
er the health concern. For example, an AQI value of
50 represents good air quality with little potential
to affect public health, while an AQI value over 200
represents very unhealthy air quality. (Note: More
information on the AQI is available on the rest of
the Guide page and at www.airnow.gov.)
3. If you are using printed color copies of the Ozone
Map, hand them out to the class. If you are using
the Internet to access the map, tell the class to go
to: http://ciese.org/curriculum/airproj/airquality-
map/
Tell students that the AQI colors on the map rep-
resent one day only; the AQI, and air quality, can
change daily.
4. Have students answer Questions 1-5 on the Stu-
dent Worksheet, using the AQI color charts and
the Ozone Map.
5. Review students' answers for Questions 1-5 on the
Student Worksheet with the class.
6. Give students time (approximately 5 to 10 min-
utes) to answer Questions 6 and 7.
7. As a class, discuss students' answers to Questions
Band 7.
Adaptation
For Grades K-2, use the first and second paragraphs
of the Background Summary and simplify the third
paragraph to: "Ground-level ozone comes mostly
from motor vehicles that we drive, factories that
make products we use, and power plants that make
our electricity." Also assist the class in answering the
Student Worksheet questions #1-6 verbally instead of
writing the answers, and skip question #7.
For Further Exploration
Have students explore more information about
ground-level ozone on the AIRNow Web site
(www.airnow.gov).
Have students explore "nitrogen oxides" (NOJ and
"volatile organic compounds" (VOCs) on the Inter-
net.
AoknowlQdgmQnts/RQSOuroQS
Air Pollution: What's the Solution? pfo'^ct, developed
by the U.S. EPA, the Northeast States for Coordinated
Air Use Management, and the Center for Innovation in
Engineering + Science Education. See:
http://ciese.org/curriculum/airproj/
AIRNow program. The Air Quality Index (AQI) is always
available at the AIRNow Web site at: www.airnow.gov
Walking for Health and the Environment Curriculum,
by Walk Boston and ERG. Web site:
www.walkboston.org/what-we-do/initiatives/safe-
routes-school
Noxt GonQration fioionoQ
Standards
Interdependent Relationships in Ecosystems
Matter and Energy in Organisms and Ecosystems
Earth and Human Activity
Engineering Design
AQI Toolkit For Teachers
40
The Ozone Between Us
-------�
Student Worksheet: The Ozone Between Us
Name:
OZORQ Map
Look at the two AQI color charts on the page titled Air Quality Index (AQI)-A Guide to
Air Quality and Your Health, then look at the "Ozone Map" and answer the following
questions:
1. Next to each Air Quality category listed below, write the name of the color that is
used on the map for that category:
Air Quality Catogorg
Good
Color Used
Moderate
UnhQalthg for fionsitivQ Groups
UnhQalthg
Verg UnhQalthg
2. Find Los Angeles, CA on the Ozone Map. What is the air quality in Los Angeles?
Circle:
Good Moderate Unhealthy for Unhealthy Very
Sensitive Groups Unhealthy
3. Find another city on the map that has the same air quality as Los Angeles. Write the
city and state below.
4. Find two cities on the map where the air quality is "unhealthy for sensitive groups."
Write the city names and states below.
AQI Toolkit For Teachers
41
The Ozone Between Us
-------�
(continued)
Student Worksheet: The Ozone Between Us
Name:
5. Are there any cities on the map with good air quality? If so, list three.
6. Where are most of the red and orange areas on the map, near or far away from
cities?
7. Write a sentence that compares the kinds of places where good air quality is found,
and the kind of areas where unhealthy air quality is found. Why do you think that is?
AQI Toolkit For Teachers
42
The Ozone Between Us
-------�
Teacher Answer Sheet: The Ozone Between Us
OZORQ Map
Look at the two AQI color charts on the page titled AirQualitylndex(AQI)A Guide
to Air Quality and Your Health, then look at the "Ozone Map" and answer the follow-
ing questions:
1. Next to each Air Quality category listed below, write the name of the color that is
used on the map for that category:
Air Quality Category
Good
Green
Moderate
Yellow
Unhealthy for Sensitive Groups
Orange
Unhealthy
Very Unhealthy
Purple
(If students ask, or you wish to inform them, tell them that the color "Maroon,"
which represents "Hazardous" air quality, is not listed on the chart above because air
quality has not been "hazardous" in the U.S. for many years.)
2. Find Los Angeles, CA on the Ozone Map. What is the air quality in Los Angeles?
Circle:
Good Moderate
(Answer: Unhealthy)
Unhealthy for Unhealthy Very
Sensitive Groups Unhealthy
3. Find another city on the map that has the same air quality as Los Angeles. Write the
city and state below.
(Answer: Several correct answers-Houston, New York City, Boston)
AQI Toolkit For Teachers
43
The Ozone Between Us
-------�
(continued)
Teacher Answer Sheet: The Ozone Between Us
4. Find two cities on the map where the air quality is "unhealthy for sensitive groups."
Write the city names and states below.
(Several correct answers: Sacramento, Charlotte, Richmond, Albany)
5. Are there any cities on the map with good air quality? If so, list three.
(Several possible answers: Seattle, Tuscan, Dallas, Jackson, Miami,
Atlanta, Orlando, Detroit, Denver)
6. Where are most of the red and orange areas on the map, near or far away from
cities?
(Answer: Near cities)
7. Write a sentence that compares the kinds of places where good air quality is found
with the kinds of areas where unhealthy air quality is found. Why do you think that
is?
(Answer: Good air quality is found mostly in areas away from cities, in
rural areas, where fewer cars and factories are. Or similar answer.)
(Additional information that teachers may want to include: Some
cities also have good air quality. This may be because they have taken
steps to reduce air pollution, such as having good public transporta-
tion so that people take buses or trains instead of driving places, and
high-occupancy vehicle lanes to cut down on rush-hour traffic. Or, it
could be that wind blew air pollution away from certain cities.)
AQI Toolkit For Teachers 44 The Ozone Between Us
-------�
ThQ Cilia (not fiillg!) GamQ
Learning Objectives
Students will:
Learn what particle pollution is.
Understand how particle pollution can affect people's health.
Observe through role playing how our bodies (cilia in particular) help
protect us from particle pollution.
Understand the sources of particle pollution (see For Further Fjcploration).
Learn what people can do to reduce particle pollution (see For Further
Fjcploration).
Grade Level: Grades 3-5
Estimated Time: 30 minutes
20 minutesFor Further Exploration
Background fiummarg
One type of air pollution is called particle pollution,
which is made up of tiny particles of dust, dirt, smoke,
and liquid droplets. Particle pollution comes from
things like cars and other vehicles, smokestacks from
factories and power plants, fireplaces and wood-burn-
ing stoves, volcanoes, and forest fires. When there's
a lot of particle pollution in the air, people can get
sick from breathing it in. Our bodies help protect us
from particle pollution. Cilia, which are tiny hair-like
structures that line our respiratory system, try to keep
foreign objects like particle pollution out of our lungs.
Sometimes the cilia are successful, but not all the
time. When particle pollution reaches our lungs, we
might feel sick.
Certain people are particularly sensitive to particle
pollution, including children, the elderly, people with
asthma and other respiratory problems, and people
with heart problems. Particle pollution may make
people cough or have difficulty breathing, and can
make asthma and heart disease worse. People visit
hospitals more often when there is a lot of particle
pollution. There are things that we can do to help
protect our health from particle pollution, such as
finding out how clean or dirty the air is, taking it
easier outside if the air is not good, and telling an
adult if you have trouble breathing on days when the
air quality is bad. It's also a good idea to stay away
from school bus tailpipes because particle pollution
comes out of them.
Tell the class that they are going to play a "Cilia
Game" that shows how cilia keep particle pollution
AQI Toolkit For Teachers
out of the lungs, and how some particle pollution gets
through to the lungs.
Materials Needed
Flour (about a handful)
Flashlight
Student Handout: Human Hair and Particle
Pollution (included)
75 (approx. 3-4 per student) pre-made newspaper
balls (wadded up newspapers to size of tennis
balls, wrapped in masking tape)
Cilia Game Set-Up (Included)
4 orange traffic/sports cones, or other similar size
safe objects
Name tags (optional, that say "Cilia", "Particle
Pollution", and "Lung"-see Step 9)
Sources of Particle Pollution poster (included) (see
"For Further Information" section)
Flip chart and marker
Keg Questions
What is particle pollution? (Answer: Particle pol-
lution is made up of tiny particles of dust, dirt,
smoke, and liquid droplets in the air.)
Where does particle pollution come from?
(Answer: Particle pollution comes from cars and
other vehicles, smokestacks from factories and
power plants, fireplaces and wood-burning stoves,
volcanoes, and forest fires.)
45 The Cilia (Not Silly) Game
-------�
How can particle pollution affect our health?
(Answer: Particle pollution may make people cough
or have difficulty breathing, and can make asthma
and heart disease worse.)
What can we do to protect our health from
particle pollution? (Answers: Find out how clean
or dirty the air is. Take it easier outside if the air is
not good. Tell an adult if you have trouble breath-
ing on days when the air quality is bad. Stay away
from school buses' tailpipes.)
What can we do to reduce particle pollution?
(Answer: Use fireplaces and wood stoves less often,
or not at all. Make sure you have a clean-burning,
EPA-certified wood stove. Carpool or use public
transportation when possible instead of driving.
Turn off lights when not using them.)
Vocabulary
Cross section-A cut through a substance, at a right
angle.
Particle pollution-Air pollution that consists of tiny,
often microscopic particles of dust, dirt, smoke, and
liquid droplets.
Cilia-Small hair-like structures that line the airways
in the lungs and help clean out the airways.
1. Darken the classroom. Gently throw a handful of
flour into the air, keeping it away from students.
2. Quickly shine a flashlight on the flour as it is fall-
ing. Ask students to describe what they see.
3. Discuss how the flour floats in the air, separating
into tiny pieces, like dust. Tell students that these
tiny pieces are called "particles." Explain that many
different kinds of particles float in the air and
can be inhaled into our lungs, sometimes making
people cough.
4. Explain that when tiny particles of dust, dirt, or
smoke mix with liquid droplets in the air, scientists
call this "particle pollution." When there is a lot
of particle pollution in the air, people can get sick
from breathing it into their lungs. They may have
trouble breathing and become more tired. Particle
pollution can aggravate heart or lung disease.
Breathing particles has been linked to heart attacks
and even death.
5. Have one student come up to the blackboard and
draw a large circle on it. Tell students to pretend
that the circle is a strand of hair, cut open-a "cross
section." Have the student label the diameter
"70 microns."
6. Have two other students draw two tiny circles in-
side the large circle and label their diameters "2.5
microns." Explain that microns are very, very small
units of measurement. Tell students that particles
can be very tiny-we may not be able to see them,
but they may still be there.
7. Distribute the Student Handout: Human Hair and
Particle Pollution and observe it with students.
8. Explain what cilia are and the role they play in our
health and air pollution.
(Background information on c/7/o:Tell students
that cilia (pronounced: sih-lee-uh) are tiny hair-
like structures in our respiratory system. The job of
cilia is to protect our respiratory system by keeping
foreign matter-like particles-from entering our
lungs. Cilia do this by moving back and forth to
remove particles that enter our nose with the air
we breathe. As air is inhaled, the cilia wave around,
pushing any foreign matter away from the lungs.)
9. Tell students they are going to play a "Cilia Game."
(Not a "Silly" game!) Ask for student volunteers, as
follows:
Two students as the "Lungs"
Half the class, plus a few more, as "Particle
Pollution"
The remaining students as "Cilia"
If you are using name tags for the above roles,
pass them out now.
10. See the enclosed graphic for the Cilia Game Set-
Li p. In an open area, set up the boundaries of the
game in a trapezoid shape, using 4 traffic cones
or similar size (and safe) objects, leaving approxi-
mately 15 feet between the "Lungs" boundary and
the "Particle Pollution" boundary.
11. Read the game rules to the class.
(a) The "Lungs" students stand on the short side of
the trapezoid.
(b) The "Particle Pollution" students line up along
the longer edge of the game area.
(c) The "Cilia" students stand in between the "Par-
ticle Pollution" and the "Lungs." Tell the Cilia
students that they can stretch and wave their
AQI Toolkit For Teachers
46
The Cilia (Not fiilly) Game
-------�
arms like cilia to keep Particle Pollution from
entering the Lungs, but they must stand still
with their feet together, and must not hit other
students. Have the Cilia students practice this
movement.
(d) Place some of the pre-made particle pollu-
tion newspaper balls near each of the "Particle
Pollution" students. Explain that the "Particle
Pollution" students will throw the particle pol-
lution balls towards the "Lungs" students, and
the "Cilia" students will try to defend the Lungs
by waving their arms and batting the particle
pollution balls away from the Lungs. Emphasize
that the balls should NOT be thrown too hard
and not anywhere near anyone's face. Dem-
onstrate by having a Particle Pollution student
throw one of the newspaper balls at you.
(e) Tell students to take a deep breath and feel the
air moving into their own lungs.
12. Begin the game by declaring the day bright and
clear, with little particle pollution, and tell two
Particle Pollution students to throw two balls each
towards the Lungs. The Cilia students should try to
bat the balls away from the Lungs.
Ask the "Lungs" how they are feeling.
13. Explain that now it is a day with lots of particle
pollution. Tell students that when you say "Go,"
all of the Particle Pollution students should throw
all of their balls, one at a time, towards the Lungs,
and the Cilia students should try to stop the balls
from reaching the Lungs by waving their arms.
Then shout out "Go!"
14. When all the balls have been thrown, stop the
game and allow time for students to calm down.
Then ask the Lungs students how it felt to have
all of that particle pollution thrown at them. Tell
the Lungs students to count how many Particle
Pollution balls reached them. Ask the Cilia students
how they felt during the game.
15. Review with students what happened in the Cilia
Game: when there was just a little particle pollu-
tion, it was easier for the cilia to keep the particle
pollution away from the lungs. When there was a
lot of particle pollution, it was much harder for the
cilia to keep the particle pollution away from the
lungs, and the lungs may have felt attacked by the
particle pollution.
16. Explain/review that at certain levels, everyone can
be affected by particle pollution. Some groups of
AQI Toolkit For Teachers 47
people are more sensitive, including children, the
elderly, people with asthma and other respiratory
problems, and people with heart problems. Breath-
ing in particle pollution may make people cough,
make it harder to breathe, and can make asthma
and heart disease worse. People visit hospitals
more often when there is a lot of particle pollution.
17. Discuss with the class what they can do to protect
their lungs and hearts from particle pollution in
the air. Tell them they can:
(a) Find out how good or bad the air quality is
each day from the Air Quality Index, or AQI. The
AQI is often in the newspaper on the weather
page, sometimes on the TV news, and always
on the Internet (at www.airnow.gov).
(b) If the air quality is not good, take it easier if
you're outside-walk instead of run, and take
breaks often.
(c) If it feels harder to breathe when the air is not
good, tell an adult.
(d) Stay away from the tailpipes of school buses
-you don't want to breathe in the particle pol-
lution that comes out of those.
In addition to the Human Hair and Particle Pollu-
tion handout included with this lesson, you can
also distribute the general student handout in this
Tool kit, Breathe Smart! Four Things Kids Can Do
(see Grades 3-5 Handout in this Toolkit).
/Vote: See "For Further Exploration" below for a
discussion of sources of particle pollution and
ways to reduce particle pollution.
For Further Exploration
If time permits, have a discussion with students about
where particle pollution comes from. Share with
the class the Sources of Particle Pollution poster at
the end of this lesson. Ask students if they or their
families ever create particle pollution and how. Record
answers on a flip chart.
(Teacherdiscussion information:There are many
sources of particle pollution created by people's activ-
ities. Cars and trucks, factories, and power plants that
produce electricity release particle pollution. Unpaved
roads, and construction projects that grind or crush
rocks or soil, also cause particle pollution. Wood-
burning stoves and fireplaces, outside burning of
branches or trash, smoke from cigarettes and cigars,
and off-road vehicles such as ATVs and lawn mow-
ers also create particle pollution. Sometimes nature
The Cilia (Not fiilly) Game
-------�
can pollute the air, too. Forest fires and volcanoes can
pollute the air with particles. If you lived near a forest
fire, what do you think it would feel like to breathe
the air that day? [Wait for an answer or two.] 7hz air
would be very smoky, and it might make you cough,
or you might find it harder to breathe.)
Continue the discussion by asking students what they
think they, their families, and their communities can
do to reduce particle pollution. Write the answers on
the flip chart. Guide the class discussion to include
the following categories:
Use fireplaces and woodstoves less often or not
at all. Some town or city governments already
ban such burning when there's a lot of air pollu-
tion. Also, if your family uses a woodstove, make
sure it's a clean-burning, EPA-certified unit, which
produces less particle pollution than older units.
Use only dry seasoned wood; wet wood or plastics
cause more smoke and that's not good for you to
breathe, indoors or outdoors.
Use public transportation such as buses, trains,
and subways whenever possible instead of driving
in cars and trucks.
Companies and governments can develop cleaner
(less polluting) fuels (gas or other fuels) and cars,
and people can buy these cleaner cars and fuels.
Power plants can use cleaner ways to make elec-
tricity (such as water, wind, or solar power; cleaner
coal; and special equipment to reduce pollution).
Factories can use cleaner ways to make their prod-
ucts, and special equipment to reduce pollution.
AoknowlQdgmQnts/RQSOuroQS
Adapted from Clean Air Campaign, Georgia Learning
Connections.
Noxt GonQration
Standards
Energy
Interdependent Relationships in Ecosystems
Engineering Design
Matter and Energy in Organisms and Ecosystems
AQI Toolkit For Teachers
48
The Cilia (Not fiilly) Game
-------�
Student Handout: The Cilia (not fiillyl) Game
Human Hair and PartiolQ Pollution
Average Human Hair
70 microns
Particle Pollution
(shown as 10 and 2.5 microns)
(2.5 urn)
(Particle pollution is also known as
paniculate matter, orPM)
AQI Toolkit For Teachers
49
The Cilia (Not fiilly) Game
-------�
Cilia Game fict-Up
X Lungs X
xxxxxxxxxx
article Pollution
approx
15ft.
AQI Toolkit For Teachers
50
The Cilia (Not fiilly) Game
-------�
Sources of Particle Pollution
Wood-Burning Stoves^^ |
Power Plants
Fine Particles Can Be
Emitted Directly or Formed
in the Air from Gases
Heavy Duty Diesel Engines
Source/U.S. EPA, Office of Air Quality Planning and Standards.
AQI Toolkit For Teachers
51
The Cilia (Not fiilly) Game
-------�
-------�
Traffic Tally
Learning Objectives
Students will:
Design and conduct a traffic survey to explore traffic volume on key local
roads.
Collect and analyze observational data.
Understand the connection between traffic volume, modes of transporta-
tion, air pollution, and health.
Grade Level: Grades 3-5
Estimated Time: 1.5-2 hours (2-3 sessions)
Background fiummarg
Increased traffic is an ongoing problem in many local
communities, for several reasons. An increase in traf-
fic often increases accidents, safety problems, traffic
jams, and the time it takes to get places. Increased
traffic is also a health and environmental concern:
more vehicles on the road means more air pollution,
since gasoline-powered vehicles release, or emit, sev-
eral air pollutants (called vehicle emissions). Increased
air pollution can cause people to have breathing
problems and aggravate heart and lung disease. Also,
driving more, instead of walking or bicycling, means
we get less exercise, which can potentially contribute
to health problems such as obesity, heart disease, and
diabetes. Traffic is an environmental and economic
concern for another reason as well: more cars on the
road means more gasoline is used to run those cars.
Gasoline is made from oil, of which there is a limited
amount in the world.
This activity is a mini-field trip that provides students
with hands-on experience in conducting a traffic
survey in their own community, analyzing their data,
and exploring the connection between traffic and air
pollution. If time permits, students can create presen-
tations of their data.
Materials Needed
Pencils and erasers
Watches with minute/second hands, stopwatches,
or clicker counters
Clipboards (if available)
Additional staff support (classroom assistants or
parent volunteers)
Signed parental consent forms (if taking students
off school premises)
Student Worksheets (included)
Key Questions
Do you think there is too much traffic along the
main (2-lane) roads in your community? If so, how
many vehicles do you think travel along these
roads during morning rush-hour traffic? How
many people do you think are typically in each
vehicle?
How might the amount of traffic be reduced?
(Possibleanswers: People could walk, bicycle,
carpool, and take subways, trains, and buses more
often.)
How might the amount of air pollution from traf-
fic be reduced? (Possibleanswers: Having fewer
vehicles on the road; more people walking, bicy-
cling, carpooling, and taking subways, trains, and
buses; driving low-emission vehicles.)
What might some of the benefits be of reducing
traffic and air pollution from vehicles? (Possible
answers: Fewer traffic jams; safer streets to walk
and bike on; fewer health problems from air pol-
lution, such as breathing problems [e.g., asthma],
and heart disease, and possibly healthier people
because more people might be walking and get-
ting exercise.)
What things might affect the accuracy of a traffic
survey's results? (Possible answers: If on the day
of the survey there was bad weather or the day
was a holiday, the amount of traffic would not
represent the usual traffic. Also, the traffic survey
results would not be as accurate if: (1) different
AQI Toolkit For Teachers
53
Traffic Tally
-------�
groups started counting traffic at different times;
(2) some people missed counting some vehicles;
(3) some people put some vehicles into the wrong
categories; (4) some people "double-counted"
some of the vehicles.)
What vehicles produce the most pollution per
person? (Possibleanswer:Cars and trucks with
just one person in them.) What vehicles produce
the least pollution per person? (Possibleanswer:
Bicycles. Or, buses or trains that carry a lot of
people.)
Vocabulary
Tally-Counting using marks rather than names or
numbers.
Emissions-Substances discharged into the air.
Releases of pollutants from a variety of sources and
activities, including vehicles, factories, power plants
that make electricity, and wood-burning stoves and
fireplaces, among others.
1. Preparation.
Make important arrangements, such as obtain-
ing parental permission slips to go to off-school
premises, and getting commitments from adult
classroom assistants and/or parent volunteers to
accompany the class groups. (Note: If going offsite
is problematic, you can instead conduct the traffic
survey on school premises, near the driveway to
the school.)
Choose the roads on which the class will sur-
vey traffic volume and vehicle types. Choose a
minimum of two roads, for comparison purposes.
Choose roads that are within easy walking dis-
tance of the school, and are busy two-lane (one
travel lane each direction) roadways. Select a time
of day when the roads have moderately busy traf-
fic, such as morning rush hour.
The number of roads chosen will depend on how
many groups you want to divide the class into
(which in turn will depend in part on how many
adult assistants/volunteers you have, and the size
of your class). (Note: The class will not be sur-
veying major four-lane or larger highways; the
purpose is to determine local/community traffic
impacts.)
Give students an overview of the traffic survey. In-
form students that the class will conduct a traffic
survey to explore traffic volume on key local roads,
and the connection between vehicle traffic and
air pollution. Discuss the "Key Questions" above
with the class if you have not already done so. Tell
the class that they will divide up into groups of at
least 8 students per group, and will stand safely
by the sides of different busy roads. For a fifteen-
minute period (e.g., during morning rush hour),
some students will count the number of vehicles
driving by, while other students will identify the
type of each vehicle (e.g., car, truck, etc.), or the
number of people in each vehicle.
Explain a tally chart. Tell students that to conduct
the survey, they will make tally charts that keep
track of the number and types of vehicles and the
number of people in each vehicle, and that the
class is first going to practice making these charts.
On the chalkboard, illustrate tally marks.
2. Practice a traffic tally in class. Tell students to use
the back of their Student Worksheets to prac-
tice recording the number and types of vehicles
that you will be calling out to them. For simplic-
ity, tell students to consider SUVs and vans as
"trucks" and to ignore motorcycles. Then call out
the names of the vehicle types listed below; do it
quickly to simulate rapid traffic flow so that stu-
dents can practice performing quick tallys, which
they will need to do by the roadside.
Car
Truck
Car
Bicycle
Car
Car
Truck
Car
Car
Truck
Car
Car
Bus
Car
Car
Car
Car
Car
Car
Car
Car
Car
Car
Bus
Truck
Car
Car
Car
Car
Truck
Truck
Car
Bicycle
Bicycle
Car
Bicycle
Car
Bus
Car
Car
Truck
Car
Truck
Car
Bus
Car
Truck
Truck
Car
Truck
Car
Car
Bicycle
Car
Bicycle
Car
Bicycle
Truck
Truck
Car
Car
Car
Truck
Truck
Truck
Car
Truck
Truck
Car
Car
Tell students to swap tally sheets and check for
correct answers for each type of vehicle as you
read aloud the totals listed below:
Totals: Bicycle = 7, Car = 41, Truck = 18, Bus = 4
3. Explain to students that they will conduct the traf-
fic survey in four pairs. The first and second pairs
will focus on the number and types of vehicles;
AQI Toolkit For Teachers
54
Traffic Tally
-------�
the third and fourth pairs will focus on the num-
ber of people in each type of vehicle:
1st Pair: One person will call out loud to their
partner the type of the vehicle (e.g., "car," "truck")
each time a vehicle passes in one direction (one
side of the street), while the other partner will
record the data on Student Worksheet #1.
2nd Pair: One person will count vehicles pass-
ing in the other direction (on the other side of the
street), while the other partner records the data
(as described in "1st Pair" above).
3rd Pair: One person will call out the number of
people in each vehicle in one direction and identify
the type of vehicle, while the other partner will
record the number of persons per vehicle and the
vehicle type. Tell students that it may be difficult to
identify the number of people, and to do the best
they can. For buses, have the students discuss and
agree on an estimate of the number of people they
will use (e.g., average of 15 people per bus) and
make sure all students are using the same number.
4th Pair: One person will call out the number
of people in each vehicle in the other direction
and the vehicle type, while the other partner will
record the number of persons per vehicle and the
type of vehicle. Again, tell students that it may
be difficult to identify the number of people, and
to do the best they can. For buses, use the same
estimated average number of people as discussed
in "3rd Pair" above, and make sure all students are
using the same number.
4. Explain ways that conducting the survey can help
make it more accurate. That is, it is important for
each group and each pair of students to do things
exactly the same way. For example, each group
must start the survey at the same time, and each
group must conduct the survey for exactly 15
minutes-not longer and not shorter.
5. Assign the students to survey groups, and assign
an adult assistant to each group. Have students in
each group divide up into pairs; help them decide
who will be an "announcer" (calling out the type of
each vehicle that passes, or the number of people
in each vehicle) and who will be the "recorder" in
each pair. Assign one person (e.g., the adult as-
sistant) to be the timekeeper, who will tell students
when to begin and end the survey and record the
exact starting and ending times.
6. Conduct the traffic survey at the designated loca-
tions, using Student Worksheet #1. If possible,
have students stand in locations where they do
not have to cross any streets. Be sure to remind
students to practice safety: stand back from the
roadway; if crossing a street is necessary, do so
carefully when the adult assistant says it is safe to
do so. Make sure students are standing in such a
way that allows other pedestrians to pass eas-
ily, and that they are polite to people. Have adult
assistants help students as needed as they count
vehicles and people in them.
7. After the survey has been conducted, in class (on
the same day or another day), have the student
groups compile their survey results, and discuss
and analyze the results as a class.
Calculate totals. Back in the classroom, in the top
half of Student Worksheet #2, have each group
add up the totals for their group, including the
total number of each type of vehicle and the grand
total number of vehicles. Ask a spokesperson
from each group to read aloud the totals for their
group, write these on the chalkboard, and add up
the totals for the entire class.
Calculate data for different vehicle types. Of the
total traffic, have the class calculate the portion of
each vehicle type (e.g., cars, trucks, buses, bicycles).
For younger students, this might be calculated as
fractions. For older students, this might be calcu-
lated as fractions and percentages.
Discuss results thus far. Which roadway had the
most traffic? Why does the class think this is so?
Compare and contrast the numbers of different
types of vehicles for each group.
8. Explain the Air Pollution Values table on Student
Worksheet #2 to the class. Tell students that you
have assigned an "air pollution value" number to
each type of vehicle. The number is an estimate
of the degree of air pollution each type of vehicle
releases for every person it carries, compared to
the other vehicle types-the higher the number,
the more air pollution. On Student Worksheet #2,
in the Air Pollution Values table, tell students to
look at the numbers in the "Air Pollution Value Per
Person" column.
Explain the rationale behind these numbers: Trucks
with one or two people in them release the most
pollution per person, so they are assigned the
highest pollution value of "10." Cars with one or
two people in them release the next most pol-
AQI Toolkit For Teachers
55
Traffic Tally
-------�
lution per person, so they are assigned the next
highest pollution value of "9." Cars and trucks with
three or more people can be considered carpools
(sharing rides) for this exercise; because more
people are in the vehicle, it releases less air pollu-
tion per person, and is assigned a lower value of
"3"-about one-third the pollution values of 9 or
10. (This is because a vehicle with three people in
it would release about one-third of the pollution
compared to three separate vehicles each carrying
one person in it). Because buses can carry many
more people than cars and trucks, the pollution
value per person for buses is much lower ("0.2")
than for cars and trucks. Bicycles don't release any
air pollution, so their air pollution value is "0".
9. Tell students to fill in the "Total Number of People"
column in the Air Pollution Values table in Student
Worksheet #2. Ask students if they know where to
get this information. If no one offers the correct
answer, tell students they recorded this informa-
tion on the bottom of Student Worksheet #1
during the traffic survey, in the "Number of People
in Each Vehicle" box. Assist students as needed
in adding up the data in Student Worksheet #1
and transferring it to the Total Number of People
column of the Air Pollution Values table in Student
Worksheet #2 (e.g., placing the numbers in the
correct "Vehicle Type" rows in the table).
10. Next, demonstrate on the board how to calculate
numbers for the "Estimated Air Pollution Value"
column in the Air Pollution Value table. For one of
the vehicle types listed, ask a student to give you
his or her answer for the "Total Number of People"
for that vehicle type. Multiply the total number of
people for that type of vehicle by the "Pollution
Value Per Person" number assigned to that vehicle
type. Have students enter this answer in the "Es-
timated Air Pollution Value" column of the table.
Have students work in groups to calculate the
Estimated Air Pollution Value for the other vehicle
type categories and record these numbers in the
Air Pollution Values column in the table.
11. Discuss the results of the Air Pollution Values
table. Which vehicle type had the highest air pol-
lution value? Which vehicle type had the lowest air
pollution value? Discuss the results for the other
categories, and compare the numbers for all five
vehicle types. If no buses were identified in the
traffic survey, provide a hypothetical scenario for
comparison purposes (e.g., two buses, each with
15 people in them, would result in an Estimated
Air Pollution Value of 6: Total Number of People
[30] x Air Pollution Value Per Person [0.2] = Esti-
mated Air Pollution Value [6]).
12. Discuss the relationship between traffic volume,
air pollution, and health.
Ask: If the number of vehicles on the road were
reduced, might this reduce air pollution? (Correct
answer: Yes). Why? (Co/reef answer: Because gas-
powered vehicles release air pollutants, and fewer
vehicles would mean less pollution.)
/4s/c:How might the number of vehicles on the
road be reduced? (Correctanswers:Carpooling and
using public transportation [buses, trains, sub-
ways] would reduce the number of vehicles on the
road, which would reduce air pollution. Walking
and bicycling would also reduce air pollution. You
can also mention that new laws requiring ve-
hicles to release fewer emissions would also help
vehicles reduce the amount of air pollution.
/4s/c:What are some benefits from reducing air
pollution? (Correctanswer: Less breathing prob-
lems and fewer asthma attacks and heart prob-
lems. People might also be healthier because they
might get more exercise by walking or bicycling
instead of driving. Also, trees and plants would be
healthier if there was less air pollution.
13. Discuss the accuracy of the traffic survey method-
ology and results. Identify any potential problems
regarding the data collection methods: Did one
group collect data for 20 minutes instead of 15?
Did some people miss counting some vehicles (e.g.,
because they weren't paying attention, because
they sneezed, etc.)? Did some people "double-
count" one or more vehicles? Could students really
see the number of passengers inside vehicles? Did
some people put certain types of vehicles in the
wrong categories (e.g., did they remember to count
SUVs and vans as trucks)? Did one group start ear-
lier or later than another group? Did the weather
suddenly change during the tally? Inform the class
that any of these or other factors can affect the
accuracy of the survey results. Ask the class if they
have any ideas about how the survey could have
been done more accurately. (Then tell students
they did a great job, given the many things that
can affect the accuracy of survey results.)
14. If time permits, have students create a presenta-
tion of the traffic survey and air pollution results.
Depending on time available, either assign how the
class should present the data, or, if more time is
AQI Toolkit For Teachers
56
Traffic Tally
-------�
available, have the class discuss different ways of
presenting the data and determine the best way to
present the information (e.g., line graph, pie chart,
pictogram, and/or bar graph). If time permits, you
may want to have different groups present their
data results in different ways.
Building on prior classroom experience with dif-
ferent graphic presentation formats, explain to
the class how to develop the type of presentation
format you choose. Decide what units, scales, col-
ors, symbols, spacing, etc. to use, as appropriate. If
computers are available, consider having students
use the Internet or relevant software to create
charts or graphs.
Discuss which type(s) of chart or graph conveys
the information most effectively and why.
Adaptation
For Grades K-2, conduct the traffic survey as a whole
class instead of dividing up into groups (with enough
adult classroom assistants). Have the teacher and
adult assistants, rather than the students, count the
number of vehicles and people in the vehicles. Back
in class, the teacher can call out the totals for the
students to record. The teacher can calculate the es-
timated air pollution values and tell students that the
higher the number, the more air pollution that type
of vehicle produces. For presentation purposes, help
the students develop pictograms and/or pie charts
(instead of more complex bar graphs, etc.).
For Further Exploration
Have students explore the mean and range of the
different groups' data sets and of the grand totals.
Have students develop a database, computerized if
possible, of the data collected.
Conduct an in-class simulation instead of,
or in addition to, a traffic survey field trip.
See the Traffic Jams lesson at Web site:
www.cleanaircampaign.org/Your-Schools/Resourc-
es/Air-Quality-Lesson-Plans/Elementary-School.
(Step 7 of the Traffic Jams lesson on pollution
values was adapted and incorporated into this
Traffic Tally lesson).
AoknowlQdgmQnts/RQSOuroQS
UK Department of Transport Primary School Teaching
Resource - Numeracy: Local Traffic Survey.
The Beacon School Interactive Website-Geography
Department at: www.geogweb.com
Traffic Jams. The Clean Air Campaign, Georgia Learn-
ing Connections at: http://www.cleanaircampaign.org/
Your-Schools/Resources/Air-Quality-Lesson-Plans/
Elementary-School
Walking for Health and the Environ-
ment Curriculum. WalkBoston and ERG at:
http://walkboston.org/resources/maps
Noxt GonQration fioionoQ
Standards
Energy
Interdependent Relationships in Ecosystems
Engineering Design
AQI Toolkit For Teachers
57
Traffic Tally
-------�
Student Worksheet #1: Tally Sheet for Traffic Survey
Location (name of road, and main intersection if appropriate):
Number of Each Vehicle Type
Type
Cars
Trucks
BUSQS
BiogolQS
Tally Totals
Number of People in Each Vehicle (keep separate results for each individual vehicle)
Trucks
Bicycles
Buses (estimate)
AQI Toolkit For Teachers
58
Traffic Tally
-------�
Student Worksheet #2: Survey Results and
Air Pollution Values
Location (name of road, and main intersection if appropriate):
Using your results in Student Worksheet #1, fill out the following information
in the classroom after conducting the survey:
Total number of cars:
Total number of trucks:
Total number of buses:
Total number of bicycles:
Total number of all types of vehicles:
After your teacher discusses the Air Pollution Values table below with the class,
complete the table.
Air Pollution Values
Vehicle Type
Trucks with 1 or 2
people
Cars with 1 or 2
people
Cars and Trucks
with 3 or more
people (Carpool)
Bus
Bicycle
Total Number
of People
Air Pollution Value
Per Person
10
9
3
0.2
0
Estimated
Air Pollution Value
If your teacher instructs you to do so, present your survey results (as a line graph,
pie chart, bar graph, and/or pictogram, as your teacher tells you).
AQI Toolkit For Teachers
59
Traffic Tally
-------�
-------�
Trapping Air Pollution: Temperature Inversions #1
Learning Objectives
Students will:
Observe simulations of normal weather conditions compared to conditions
during temperature inversions.
Understand how temperature inversions can trap air pollutants and impact
health.
Grade Level: Grades 3-5
Estimated Time: 45 minutes
Background fiummarg
Air temperature can play an important role in air pol-
lution. Under normal weather conditions, air tempera-
ture is cooler as you move upward in the atmosphere;
the air closer to the Earth is warmer than the air
above it. The word "inversion" means that something
is reversed or turned upside down. So when a tem-
perature inversion occurs, the opposite is true about
the air. During a temperature inversion, cool air is
"trapped" under warmer air above it. Any pollutants
in the cooler air are also trapped under the warmer
air, and cannot rise and move away, until the weather
changes, such as a wind carrying the air pollution
away. While the temperature inversion is occurring,
air quality in that particular location can get worse if
there is a lot of pollution there.
Materials Needed
Photos showing clean air and air with trapped pol-
lutants (included)
4 identical small, clear glass jars (baby food jars
work well)
Very hot tap water
Ice water (about SCOT)
2 index cards
Red food coloring
Medicine dropper (e.g., eye dropper) (optional)
2 shallow pans or baking dishes, each long enough
(to hold 2 of the small jars)
Keg Questions
Do you think different layers in the atmosphere
have different temperatures?
Do you think temperature differences in the atmo-
sphere could affect air pollution? How?
Vooabularg
Atmosphere-The mass of air surrounding the Earth.
Inversion-A reversal of the usual order.
Temperature inversion-A layer of warm air that pre-
vents the rise of cooler air and pollutants beneath it.
fiteps
1. Show the class the photos of a city with clean air
and a city with trapped air pollutants.
Demonstrate normal weather conditions to the class
(Steps 2-6):
2. Place two of the jars in one of the shallow pans.
3. Fill one of the jars with hot water and the other jar
with ice water. Fill jars to the brim. If you use ice
cubes to cool the water in the ice-water jar, do not
leave any ice in the jar.
4. Put several drops of red food coloring in the jar
with the hot water, and explain to students that
the food coloring represents air pollution.
5. Place an index card over the top of the jar with the
cold (clear) water and quickly flip this jar on top of
the jar with the hot (red) water.
Align the jar openings.
6. Carefully pull the index card out. Leave the jars
one on top of the other for later observation.
AQI Toolkit For Teachers
61 Trapping Air Pollution: Temp. Inversions #1
-------�
Next, demonstrate a temperature inversion (Steps
7-11):
7. Place the last two jars in the other shallow pan.
8. Fill one jar with hot water and the other jar with
ice water. Fill jars to the brim. Again, if you use ice
cubes to cool the water in the ice-water jar, do not
leave any ice in the jar.
9. This time, add several drops of red food coloring
to the jar with the ice water, and explain that the
food coloring again represents air pollution.
10. Place an index card over the top of the jar with the
hot (clear) water and quickly flip this jar on top of
the cold (red) water jar.
Align the jar openings.
11. Carefully pull the index card out. Leave the jars
one on top of the other for observation.
12. Discuss the results with the class.
A. Ask the class: What happened in each ex-
periment? (Answers: In the first experiment, the
hot [clear] water in the bottom jar and the cold
[red] water in the top jar mixed immediately, and
water in both jars turned red. In the second experi-
ment, the cold [red] water in the bottom jar was
trapped and could not escape upward, and the jar
on the top [hot water] stayed clear.)
B. Which of these experiments do you think
reflects normal weather conditions, and why?
Which reflects a temperature inversion, and
why? (Answer:The first experiment reflects normal
weather conditions because the colder tempera-
ture was above the warmer temperature. The
second experiment reflects a temperature inver-
sion because the colder temperature was trapped
below the warmer temperature above it.)
C. What happens to air pollutants under each
of these conditions, and how do you think this
might affect people's health? (Answer: In the
first experiment [normal weather conditions], the
water in the jars and any pollutants [red color-
ing] in them mixed together, showing that the
air and pollutants can move upward and away. In
the second experiment [temperature inversion],
the warmer water above trapped the cooler water
below and any pollutants [red coloring] in it. This
shows that a temperature inversion prevents cool
air and pollutants from rising and traps them
closer to the Earth in the air that we breathe.
Breathing trapped pollutants can make it harder to
breathe and can make people feel sick.)
Adaptation
For a more advanced lesson on temperature inver-
sions, see "Trapping Air Pollution: Temperature Inver-
sion #2" (for Grades 6-8) in this Toolkit.
AoknowlQdgmQnts/RQSOuroQS
Adapted from Alamo Area Council of Governments
(AACOG) Air Quality Curriculum at: www.aacog.com/
documentcenter/view/247
Noxt GonQration fioionoQ
Standards
Weather and Climate
Earth and Human Activity
Engineering Design
Matter and Energy in Organisms and Ecosystems
AQI Toolkit For Teachers
62 Trapping Air Pollution: Temp. Inversions #1
-------�
Clean Air
AQI Toolkit For Teachers
63 Trapping Air Pollution: Temp. Inversions #1
-------�
Pollutants Trapped In Air
AQI Toolkit For Teachers
64 Trapping Air Pollution: Temp. Inversions #1
-------�
fiave fimog City 2 from PartiolQ Pollution
Learning ObJQotivQS
Students will:
Understand how weather and people's activities affect air pollution.
Explore how changes in key variables can affect air pollution.
Learn how air pollution can affect our health.
Identify things people can do to reduce air pollution.
Grado LQVQ!: Grades 3-5
EstimatQd Timo: 1 hour
Background fiummarg
Air pollution is not good for our health. Particle pol-
lution is one type of air pollution that is made up of
tiny particles of dust, dirt, smoke, and liquid droplets
that may contain chemicals. Particle pollution "emis-
sions" come from cars and trucks, power plants, and
factories. Particle pollution can also come from natu-
ral sources, such as fires and volcanoes.
(Make sure the class understands what emissions are,
since this is an important concept of this lesson and
the Smog City 2 Web site used as the basis for this
lesson.) Ask the class if they know what emissions are.
Based on their responses, guide the class to under-
stand that emissions are releases of pollutants from
cars and trucks, factories, power plants that make
electricity, and even activities we do at home, such as
using wood-burning stoves and fireplaces.
Weather can also affect particle pollution. Wind
can blow particle pollution away from where it was
produced to distant areas. Particle pollution can occur
at any time of year, but is often especially bad in the
winter, when the winds are calm and when tempera-
ture inversions occur. An inversion is when a layer
of warm air traps cold air beneath it, including any
pollutants in the cold air.
Tell the class that the Air Quality Index, orAQI, tells
how clean or polluted the air is in a specific location
each day. The AQI has six categories for air quality:
Good (green), Moderate (yellow), Unhealthy for Sensi-
tive Groups (orange), Unhealthy (red), Very Unhealthy
(purple), and Hazardous (maroon). Tell students that
you will discuss the AQI more as the lesson continues.
Particle pollution can be part of "smog"-a term that
originally meant a combination of smoke and fog.
These days, smog refers to a combination of chemicals
and particles. Tell students that they will be playing
an online computer game called Smog City 2 about
particle pollution that lets them change things like the
weather, emissions from cars and power plants, and
population to see how these changes affect particle
pollution.
Materials Needed
Internet access
Teacher Answer Sheet (included)
Student Worksheet (included)
Keg Questions
What is particle pollution? (Answer: Particle pol-
lution is one type of air pollution that is made up
of tiny particles of dust, dirt, smoke, and liquid
droplets that may contain chemicals.)
Can people's activities affect air pollution? How?
(Answer:Yes. Vehicles, power plants, and factories
are major sources of air pollution.).
Can the weather affect air pollution? How?
(Answer/Yes. See the third paragraph under Back-
ground Summary a bove.)
Can particle pollution affect people's health? How?
What can people do to protect their health from air
pollution? (Answer: Particle pollution can irritate
the eyes, nose, and throat; cause coughing, chest
tightness, and shortness of breath; and can make
asthma and heart disease worse. When particle
pollution levels are "Unhealthy"-a "red" air quality
day according to the Air Quality Index (AQI)-peo-
ple with heart or lung disease (including asthma)
and older adults and children are advised to avoid
strenuous activities. The AQI also provides other
health messages for other air quality conditions.)
AQI Toolkit For Teachers
65 Save fimog City 2 From Particle Pollution
-------�
What can people do to reduce air pollution?
(Answers might include: Drive less; take buses,
trains, and subways; walk and bicycle. If you drive,
drive a hybrid or other car that produces fewer
emissions. Use lawnmowers that don't use gasoline
or electricity. Reduce use of wood-burning stoves or
fireplaces. Also, power plants could use wind power,
solar power, or hydroelectric power instead of coal,
oil, or natural gas. Factories can use cleaner tech-
nologies that produce fewer emissions. Companies
can make and sell fuels for cars from waste prod-
ucts instead of gasoline.)
Vocabulary
Emissions-Substances released into the air that may
contain pollutants from a variety of sources and activi-
ties, including vehicles, factories, power plants that
make electricity, and wood-burning stoves and fire-
places, among others.
Particle pollution-Tiny particles of dust, dirt, smoke,
and iquid droplets in the air.
Air Quality Index (AQI)A color-coded scale that
provides daily air quality and health information.
1. Tell students to access the Smog City 2 Web site
at www.smogcity2.org and click on "Save Smog
City 2 from Particle Pollution." Then have the class
minimize the instructions box at the top right of
the screen and ignore the "Information" box at
the bottom of the screen; they will be exploring
several of these concepts in this lesson.
2. Tell the class not to click on anything until you
tell them to (it's tempting!). Point out the main
categories on the left of the screen with the class,
including Weather, Emissions, and Population. Also
tell students to notice how each of the settings
under these categories are pre-set to a certain
level. Tell them that they will explore what hap-
pens when they change some of these settings.
(If students ask, you can mention to students
that the "Total Emissions" graph towards the bot-
tom of the page reflects all the different types of
emissions at the levels you set when you play the
game. Tell them that you will be discussing Emis-
sions later in the lesson. You can also mention that
"Random Events" refers to natural events such as
fires.)
3. Tell students to look at the black sign in the pic-
ture. The signs tells the current temperature and
AQI, or Air Quality Index. Remind students that the
AQI tells how much air pollution there is.
Tell students to record the current temperature
and the AQI on their Student Worksheet in Ques-
tion #1 -for the AQI, have students enter the AQI
under the "Number" column only for now.
4. Tell students to observe the AQI (Air Quality Index)
box in the lower right corner of the screen. Tell
the class that the default setting is "Red". (Define
default for students.) Tell students that the match-
ing health level for a red AQI color is "Unhealthy"
(see just below the colored graph where it says
"Health.") Under this health level is a correspond-
ing health message.
Review the health message in the box for a Red,
Unhealthy AQI with the class: "People with heart
or lung disease, older adults, and children should
avoid prolonged or heavy exertion. Everyone else
should reduce prolonged or heavy exertion."
5. Tell students to add the "Color" and "Health Level"
for the AQI in Question #1 of their Student Work-
sheet (based on the information reviewed in
Step 4).
6. Tell students that it's winter in Smog City 2, so
they should change the temperature setting to 30
degrees F (lowest setting, farthest to the left).
Note: Tell students that settings can be changed
by clicking on the new level they want. Remind
them to wait until you tell them to change any of
the settings.
7. Tell the class that the "Population" setting refers
to total population in an area, and it can also refer
to the number of people using wood-burning
stoves and fireplaces. Keeping the same setting
established in Step 6 (that is, tell students not to
press the Reset button), have students increase the
Population to the highest setting (far right), since
more people in Smog City 2 are using their wood-
burning stoves and fireplaces this winter.
8. Tell students to record the AQI in Question #2 on
their Student Worksheet after they lowered the
temperature and raised the Population.
Ask students: What happened to the AQI when
you lowered the Temperature and increased the
Population setting? Why do you think this hap-
pened?
AQI Toolkit For Teachers
66 Save fimog City 2 From Particle Pollution
-------�
(Answer: The AQI increased from 157 to 184. This
occurred because the increase in wood stove and
fireplace use produced more particle pollution.
Also, while particle pollution can occur at any time
of year, it is often higher in the winter. Note that
while the AQI increased, it remained in the same
-Unhealthy-category.)
9. Tell the class that the mayor of Smog City 2 has
just restricted the use of wood-burning stoves and
fireplaces this winter to reduce the Unhealthy level
of particle pollution. The west side of the city can
burn wood on even calendar days, the east side on
odd calendar days.
Keeping the setting established in Step 8 (don't
press Reset), tell students to reduce the Population
setting to the second to lowest setting (second
from left)-remind students that you are using this
setting to represent the number of people using
wood stoves and fireplaces.
10. Tell students to record the AQI in Question #3
on their Student Worksheet after they reduced
the Population using wood-burning stoves and
fireplaces.
Ask students: What happened to the AQI when
you lowered the Population? Why do you think
this happened?
(Answer: The AQI decreased from 184 to 119.
The AQI category changed from Unhealthy to
Unhealthy for Sensitive Groups. Read the Health
Message for "Unhealthy for Sensitive Groups" to
the class in the box on the lower right. The AQI de-
creased because reducing the use of wood stoves
and fireplaces reduced particle pollution.)
11. Have the class press the "Reset" button on the
lower left side so that everything returns to the
original settings.
12. Tell students to observe the current Emissions
level for "Cars and Trucks" and record the current
AQI on Question #4 of their Student Worksheet.
13. Tell students that the mayor of Smog City 2 has
just purchased a whole new fleet of hybrid cars
and other fuel-efficient cars and trucks to replace
all older cars used by city government workers.
Therefore, tell students to decrease the Emissions
level from Cars and Trucks to the lowest level to
reflect this change.
14. Tell students to record the AQI after they made the
change in Cars and Trucks emissions in Question
#5 on their Student Worksheet.
Ask students: What happened to the AQI when
you lowered the emissions from Cars and Trucks?
Why do you think this happened?
(Answer: The AQI decreased from 157 to 113.
The AQI category changed from Unhealthy to
Unhealthy for Sensitive Groups. Read the Health
Message for "Unhealthy for Sensitive Groups" to
the class in the box on the lower right of the Web
page. The AQI decreased because the newer fleet
of vehicles purchased by the city produced fewer
emissions than the older vehicles.)
15. Tell students that particle pollution can irritate
the eyes, nose, and throat; cause coughing, chest
tightness, and shortness of breath; trigger asthma
attacks; and make heart disease worse.
(Note: If the class is also studying ozone pollution,
you can mention that some of the health symp-
toms of particle pollution and ozone pollution are
similar, such as irritation of the throat, coughing,
and aggravating asthma, but some health symp-
toms are different. For example, particle pollution
can make heart disease worse. Particle pollution
has been linked to heart attacks.)
16. Tell students to look at the top of the column on
the left side of the Save Smog City 2 from Par-
ticle Pollution page and click on "Air Quality Index
(AQI)" (the second heading).
Look at the color chart at the bottom of this AQI
page with the class and read each different color's
health message so that students understand how
changes in air pollution, as reflected by changes in
the AQI, can affect people's health.
17. Ask students what steps they think they or other
people could take to reduce emissions and par-
ticle pollution. Add to and discuss the answers,
as indicated below, and the rest of the Student
Worksheet.
(Correct answers might include: Drive less; take
buses, trains, and subways; walk and bicycle. If you
drive, drive a hybrid or other vehicle that releases
fewer emissions. Use lawnmowers that don't use
gasoline or electricity. Reduce use of wood-burning
stoves or fireplaces. Also, power plants could use
wind power, solar power, or hydroelectric power
instead of coal, oil, or natural gas. Factories can
AQI Toolkit For Teachers
67 Save fimog City 2 From Particle Pollution
-------�
use cleaner technologies that produce fewer
emissions. Companies can make and sell alterna-
tive fuels for cars from waste products instead of
depending so much on gasoline as a fuel.)
(The class can also have a discussion of electric-
ity and emissions. Tell students that generally, the
more electricity that we use, the more electricity
that power plants need to produce, which produc-
es more emissions of air pollutants. If we use less
electricity, power plants will need to produce less
electricity, and will produce fewer emissions. So,
turn off lights when you're not using them, and
also appliances such as computers, TVs, fans, and
air conditioning, and turn down the heat when
leaving the house [talk to your parents about this
first]).
For Further Exploration
Change some of the other settings in Save Smog City
2 from Particle Pollution, such as Wind, Consumer
Products, and Industry, and discuss with the class how
these changes can affect particle pollution, the AQI,
and health.
To challenge students, conduct the "Save Smog City
2 from Ozone" lesson (or portions of it) in this Toolkit
(see Grades 6-8).
See the Temperature Inversion lesson(s) in this Toolkit
(one for Grades 3-5, another for Grades 6-8) for
information on how temperature inversions can affect
air pollution.
AeknowlQdgmQnts/RQSOuroQS
Smog City 2, U.S. EPA and the Sacramento Air Quality
Management District at: www.smogcitv2.org
Noxt GonQration
Standards
Weather and Climate
Energy
Interdependent Relationships in Ecosystems
Engineering Design
Matter and Energy in Organisms and Ecosystems
AQI Toolkit For Teachers
68 Save fimog City 2 From Particle Pollution
-------�
fitudent WorkshQQt: fiave fimog City 2 from PartiolQ Pollution
NamQ:
Record the current temperature and AQI in "Save Smog City 2 from Particle Pollution":
Current temperature:
Current AQI:
Color Hoalth LQVQ!
2. Record the AQI when you lowered the temperature to 30ฐ F and raised the Popula-
tion to the highest level:
Number
Color Health LQVQ!
3. Record the AQI after you reduced the "Population" that uses wood-burning stoves
and fireplaces.
Current AQI:
Number
Color
Health Level
4. Record the AQI at the current Emissions level for Cars and Trucks:
Number
Color
Health Level
AQI Toolkit For Teachers
69 Save fimog City 2 From Particle Pollution
-------�
(oontinuQd)
fitudont WorkshQQt: fiavQ fimog City 2 from PartiolQ Pollution
Name:
5. Now record the AQI when the Emissions level for Cars and Trucks was changed to
reflect government use of a new fleet of low-emission cars and trucks (changed to
lowest level):
'umbQr
AQI Toolkit For Teachers
70 Save fimog City 2 From Particle Pollution
-------�
Teacher Answer fiheet: fiave fimog City 2 from
PartiolQ Pollution
1. Record the current temperature and AQI in "Save Smog City 2 from Particle Pollution":
Current temperature: 50ฐ F
Current AQI:
Number
157
Color
Red
Health LQVQ!
Unhealthy
2. Record the AQI when you lowered the temperature to 30ฐ F and raised the Popula-
tion to the highest level:
Number
184
Color
Red
Hoalth LQVQ!
Unhealthy
Ask: If the AQI changed when you lowered the temperature and raised the Popula-
tion, why do you think this occurred?
Answer: The AQI increased from 157 to 184. This occurred because the increase in
wood stove and fireplace use produced more particle pollution. Also, while particle
pollution can occur at any time of year, it is often higher in the winter. Note that
while the AQI increased, it remained in the same-Unhealthy-category.
3. Record the AQI after you reduced the "Population" that uses wood-burning stoves
and fireplaces.
Current AQI:
Number
119
Color Health Level
Orange
Unhealthy
for Sensitive
Groups
AQI Toolkit For Teachers
71 Save fimog City 2 From Particle Pollution
-------�
(oontinuod)
Teacher Answer fiheet: fiave fimog City 2 from
PartiolQ Pollution
Ask: If the AQI changed when you reduced the Population using wood-burning
stoves and fireplaces, why do you think this occurred?
r: The AQI decreased from 184 to 119. The AQI category changed from Un-
healthy to Unhealthy for Sensitive Groups. The AQI decreased because reducing the
use of wood stoves and fireplaces reduced particle pollution.
4. Record the AQI at the current Emissions level for Cars and Trucks:
Number
157
Color
Red
Health Level
Unhealthy
5. Now record the AQI when the Emissions level for Cars and Trucks was changed to
reflect government use of hybrid cars (changed to lowest level):
Number
113
Color
Orange
Health Level
Unhealthy
for Sensitive
Groups
Ask: If the AQI changed when you reduced Emissions from Cars and Trucks to reflect
the city's purchase of a fleet of newer low-emission cars and trucks, why do you
think this occurred?
r: The AQI decreased from 157 to 11 3. The AQI category changed from Un-
healthy to Unhealthy for Sensitive Groups. Read the Health Message for "Unhealthy
for Sensitive Groups" to the class in the box on the lower right of the Web page. The
AQI decreased because the newer fleet of vehicles purchased by the city produced
fewer emissions than the older vehicles.
AQI Toolkit For Teachers
72 Save fimog City 2 From Particle Pollution
-------�
fitudont Handout
73
-------�
-------�
Breathe Smart!
FourThings
Can Do
Find out what AQI color for today is where you live.
Visit the AIRNow Web site at www.airnow.gov.
Tell your parents about the AQI so they can help you.
Protect your health when the air is dirty.
Take it easier when you play outside.
If it feels harder to breathe, tell an adult.
Help reduce pollution.
Turn off lights, TVs, and computers
when not using them.
Walk, bike, or take a bus or train with
an adult. But remember, your safety
always comes first!
Visit the AQI kids' site at www.airnow.gov
(click on "Kids" in the "Learning Center")
-------�
-------�
Unhealthy tor Sensitive Groups
-------�
-------�
Key Messages: Grades 6-8
Breathing polluted air is unhealthy. For example, you might find it
more difficult to breathe, you might cough or wheeze, or your chest
might feel tight.
AIR QUALITY INDEX
You can't always tell if the air is polluted by how it looks. The Air Quality Index, or AQI, can
help.
Two main types of air pollution are ozone pollution and particle pollution.
The ozone we breathe at ground level is bad. But very high in the atmosphere (the strato-
sphere) is a natural layer of ozone that is good because it helps protect us from the sun's
harmful ultraviolet rays. A rhyme that can help you remember this is: "Ozone: Good up
high, bad nearby."
You can protect your health in three ways when the air is polluted:
1. Find out the air quality each day.
You can do this by checking the AQI (the Air Quality Index), just like checking the
weather report. The AQI uses color-coded maps and health messages to tell you
how clean or polluted the air is. For example, green means the air is clean. Red
means the air is unhealthy for everyone.
You can always find the AQI on the Internet at a site called AIRNow at:
www.airnow.gov. You also might hear about the AQI on TV during the weather
forecast or on the radio, or you might see it on the weather page in the local
newspaper. Download the AirNow App to get the AQI on your smartphone.
2. If you're outside when you know the air is polluted, you can protect your health by
taking it easier. It's important to exercise and be active to maintain good health. But
when the air is polluted, you can reduce the time you spend exercising, walk instead of
run, take frequent breaks, or go outside at another time or on another day when the
air is cleaner.
3. If you notice any symptoms when you're outside like coughing, pain when you take a
deep breath, chest tightness, or wheezing, stop your activity and tell an adult. This is
especially important if you have asthma.
Both people's activities (such as transportation, energy use, and materials production) and
nature (such as forest fires and volcanic eruptions) can cause air pollution.
You can help reduce pollution. For example, turn off lights and equipment that use energy
when you don't need them. Walk, bike, carpool, or use public transportation when possible
instead of having someone drive you.
Key Messages 79 AQI Toolkit for Teachers
-------�
-------�
Plans
81
-------�
-------�
figmptoms fieenario
Learning Objectives
Students will:
Identify some of the health symptoms associated with specific air pollut-
ants (ozone and particle pollution).
Identify preventive measures that people can take to protect their health.
Understand which segments of the population are most at risk from air
pollution.
Grade LQVQ!: Grades 6-8
Estimated Time: 2 hours
Background fiummarg
Breathing clean air is important to maintain our
health. Millions of Americans ive in areas where the
air is sometimes considered unhealthy to breathe
because it is polluted. One common air pollutant is
ground-level ozone. The effects of ground-level ozone
pollution are different than the effects of the ozone
layer high up in the atmosphere, which helps protect
us from receiving too much of the sun's ultraviolet
radiation. At ground level, ozone can cause breathing
difficulties, aggravate lung diseases, such as asthma,
and may cause permanent lung damage. An easy way
to remember the different types of ozone is: "Good
up high, bad nearby." Ground-level ozone pollution
is formed when certain pollutants, known as precur-
sors, are released from vehicles, industries, and power
plants, and in the presence of sunlight and heat react
together to form ozone.
Another common air pollutant is particle pollu-
tion, which can cause breathing difficulties, aggra-
vate heart disease as well as lung disease, and may
cause chronic bronchitis or reduced lung function in
children. Particle pollution consists of tiny particles
of dust, dirt, smoke, and liquid droplets that contain
chemicals.
In this lesson, students first read background materi-
als about the health impacts of air pollution, followed
by a teacher-led discussion. Students then role-play
realistic case studies, as patients with health symp-
toms and their family members. The rest of the class
interviews the patient and family members to try to
determine which air pollutant may have caused the
symptoms. The class then discusses what they can do
to protect their health when air quality is poor.
Materials
(one copy of each of the following materials is
included in this lesson)
Background Reading: What Are the Health Impacts
of Air Pollution? (one for each student)
Pollutants Chart: Sources and Effects of Air Pollut-
ants (one for each student)
Group Task Cards (one set for each of three
groups; cut to card size before distributing)
Symptoms Scenarios A, B, and C (a different sce-
nario for each of the three groups)
Student Worksheet #1: What Are the Health Im-
pacts of Air Pollution? (one for each student)
Student Worksheet #2: Which Pollutant? (one for
each student)
Teacher Answer Sheet #1: What Are the Health
Impacts of Air Pollution?)
Teacher Answer Sheet #2: Which Pollutant?
Keg Questions
Do you think that air pollution levels in your area
could be high enough to affect people's health? If
so, what might some sources of air pollution be in
your area? (See Step 1 below.)
What do you think some of the health effects are
that people living in areas with high levels of air
pollution might experience? (Answer:Ozone can
cause breathing difficulties, aggravate lung diseas-
es, and may cause lung damage. Particle pollution
can cause breathing difficulties, aggravate heart
disease or lung disease, and may result in chronic
bronchitis or reduced lung function in children.)
AQI Toolkit For Teachers
83
Symptoms Scenario
-------�
Vocabulary
EthicalBehavior considered good or right.
Susceptible-Vulnerable or predisposed to certain
effects. A member of a population who is at risk of
getting a disease or illness if exposed to something
that causes the disease or illness.
Ozone pollutionOzone is an air pollutant when
near the Earth's surface. (In contrast, in the Earth's
upper atmosphere, ozone protects people from receiv-
ing too much ultraviolet radiation from the sun.)
Particle pollutionTiny particles of dust, dirt, smoke,
and liquid droplets in the air.
Precursor-A compound that participates in a
chemical reaction that produces another compound.
ReactWhen two or more chemicals interact and
form a new product.
1. If you haven't already done so, ask students if they
think air pollution levels in your area could be high
enough to affect people's health. If so, what might
some sources of air pollution be? Hold a brief class
discussion of their answers.
(Possible answers: Cats and other vehicles, dust
from construction sites, smokestacks from fac-
tories and power plants, yard burning, fireplaces
and wood stoves. Also see the enclosed Pollutants
Chart: Sources and Effects of Air Pollutants.)
2. Either as homework the night before or in-class,
have students read Background Reading: What Are
the Health Impacts of Air Pollution? and Pollut-
ants Chart: Sources and Effects of Air Pollutants.
Then have them complete Student Worksheet #1:
What Are the Health Impacts of Air Pollution? Tell
students to keep all three of these items for future
use.
3. Hold a brief class discussion of the reading, chart,
and students' Worksheet #1 responses. Discus-
sion could include teacher prompts such as: Did
you know about the health effects of air pollution
discussed in the Background Reading and the Pol-
lutants Chart? Were you surprised at any of these
health effects? Have you or anyone you've known
experienced any of these effects?
4. Select 12 students and divide them into three
groups of four students each for role-playing.
Distribute materials (below), some to the groups
and others to the rest of the class, as indicated:
To the three groups of role-playing students:
Symptoms Scenario (hand out Scenario A to one
group, Scenario B to a second group, and Scenario
Cto the third group)
Group Task Cards (after cutting them to size, give
a full set of 4-Patient, Family Member (or Second
Patient), Class Monitor, and Scribe-to each group)
To the rest of the class:
Student Worksheet #2: Which Pollutant? (one for
each student)
Background Reading, Pollutants Chart, and Stu-
dent Worksheet #1 (previously distributed; provide
to students who don't have these with them, if
done as homework)
5. While the rest of the class is reviewing the materi-
als distributed in Step 4, explain to students in
the three role-playing groups that each member
of their group will choose and assume a specific
responsibility, as defined on the Group Task Cards,
and will present their Scenario to the class.
Explain that one "patient" and one "family mem-
ber" (or, "second patient") from each group will
introduce themselves to the class (acting skills
welcome!) based on the information in their
Symptoms Scenario. Another group member will
act as class monitor, maintaining order during
questions and answers; and another will act as
scribe, writing answers on the board. Each of the
cards describes the tasks in more detail.
6. Give the groups time to prepare (5 to 10 min-
utes), allowing them to briefly read and discuss
their Symptoms Scenario and Group Task Cards
amongst themselves to prepare for their presen-
tations, while the rest of the class continues to
review the materials distributed in Step 4 and
proceeds with Step 7.
7. Tell students in the audience that they are going
to be "doctors" trying to determine the pollutant
most likely associated with or causing the symp-
toms presented. Tell them to listen carefully to
each of the three presentations and make doctor's
notes on Worksheet #2: Which Pollutant? as they
listen. Tell them they will be asking the patient and
family member in each group questions to help
the class come up with answers.
AQI Toolkit For Teachers
84
Symptoms Scenario
-------�
8. Have the first group present its Symptoms Sce-
nario to the class. Assist the group as needed.
9. After the presentation, tell the rest of the class
to go ahead and ask "doctor" questions to try to
determine possible causes of the symptoms. Tell
them they can use their Student Worksheet #2:
Which Pollutant?, the Pollutants Chart, and the
background reading as guides. Have the present-
ers respond. Assist the class as needed in asking
targeted questions to obtain pertinent information
included in the Symptoms Scenarios.
Each presenter should respond as best they can,
based on their Scenario. Other members of their
group (e.g., family member, class monitor, scribe)
can help them answer questions.
10. At the beginning of this Step, give the role-playing
groups the Pollutants Chart and Student Work-
sheet #2 so they have the same information as the
rest of the class.
After a reasonable amount of time question-
ing the Scenario presenter group, have the class
as a whole (presenting group, other groups, and
audience) together continue to try to determine
the pollutant associated with or causing the
symptoms, as well as identify health prevention
measures, with teacher guidance-but don't tell
students yet which pollutant it is or possible pre-
ventive measures.
See Teacher Answer Sheet #2: Which Pollutant?
for information on symptoms and other "hints" of
information that might be shared with the class at
this point.
Discourage students from arriving at answers too
quickly. Encourage questions about other aspects
of the patient's life (e.g., cigarette smoking) that
could also be an influence. Inform students that
even when air pollution is a primary factor, many
other factors can still influence our health.
11. Have students write down their answers on Stu-
dent Worksheet #2: Which Pollutants?
12. Using Teacher Answer Sheet #2: Which Pollut-
ants?, share and discuss the answers with the
class, including the pollutant most likely associ-
ated with or responsible for each group's symp-
toms/illness, and precautions that people can take
to protect their health.
13. Repeat Steps 8 through 12 with each of the other
two groups.
Adaptation
If time is limited, have only one or two groups make
presentations. (Note: Two groups, one group illustrat-
ing ozone symptoms and a second group illustrating
particle pollution symptoms, is preferable.)
For Further Exploration
1. Imagine that you and a friend started working out
and running together a few weeks ago, meeting
each day at 5:00 p.m. Today your friend proposes
trying a new jogging route. One possibility is at a
large park on the outskirts of town, and another
is along a major highway. Explain which route you
prefer and why.
Answer:The park would be preferable. This would
help avoid exposure to high levels of air pollutants,
especially from motor vehicles.
2. Imagine that you have been training for a bicycle
race, and the day of the race is here. The Air Qual-
ity Index (AQI) value for today in the area where
the race is taking place is 215, based on ground-
level ozone. One group of cyclists is asking the
race committee to reschedule the race. Another
group of cyclists is upset that the race may be
rescheduled. Explain which group you agree with,
and why the group requesting rescheduling might
be asking for this change in plans.
Tell students to look at the AQI chart in the Back-
ground Reading material, What Are the Health
Impacts of Air Pollution? to help them make a
decision about the bike race.
Answer: Many athletes would probably want the
race to be rescheduled so they could avoid strenu-
ous exercise when the AQI has reached a value of
215, which is considered "Very Unhealthy"-see
the AQI chart in the Background Reading mate-
rial, What are the Health Impacts of Air Pollution?
According to the AQI chart, "health alerts" begin
at an AQI value of 201, up to 300. At this level, the
chart tells us that "everyone may experience more
serious health effects." EPA guidelines for the
"Very Unhealthy" AQI category for ground-level
ozone suggest that "active children and adults, and
people with lung disease such as asthma, should
avoid all outside physical activities. Everyone else,
especially children, should significantly cut back
on outside physical activities."
AQI Toolkit For Teachers
85
Symptoms Scenario
-------�
AoknowlQdgmQnts/RQSOuroQS Next GonQrartion
Adapted from Students for Clean Air, Clean Air Pro- Qfandardfi
gram, Pima County Department of Environmental
Quality, Tuscon, Arizona. Interdependent Relationships in Ecosystems
Human Impacts
Engineering Design
AQI Toolkit For Teachers 86 Symptoms Scenario
-------�
Background Reading:
What are the Health Impacts of Air Pollution?
Air Pollution and Our Health
Every minute of every day, we breathe six to ten liters of air. If the air carries unhealthy
levels of pollutants, those pollutants can enter our bodies and affect us in many ways.
Millions of Americans live where the air is often unhealthy to breathe. Enough people are
affected so that the health impacts of air pollution costs us millions of dollars every year.
Air pollution is especially harmful to the very young and old. Infants and children are
at risk because their lungs are not fully developed until they are about 18 years old and
because they breathe faster. The elderly are at risk because they are more likely to have
undiagnosed heart or lung disease.
Since the respiratory system comes in direct contact with the air we breathe, it is the
body system most likely to be affected by air pollutants. People who already have
asthma, emphysema, or other respiratory conditions, as well as people with heart or
other circulatory problems, are especially susceptible to the effects of air pollution.
Even healthy people can be affected by air pollution. Air pollution can affect anyone.
Healthy teenagers, young adults, and strong athletes can suffer negative effects from
high pollution levels, especially when exercising outdoors.
A Tricky Question
It's a real challenge for scientists to study the health effects of different air pollutants.
It wouldn't be ethical for researchers to put people in a lab and expose them to high
levels of a pollutant. Also, outside the lab, people who live in heavily polluted areas are
exposed to not just one pollutant but to many pollutants. And, the concentration of
each pollutant changes during the day. All of this makes it difficult to separate out the
effects of each pollutant.
In addition, how susceptible people are to the effects of air pollutants can vary widely.
Think about a roomful of healthy people who are all exposed to the same cold virus.
Some will develop a bad cold, others a mild cold, and others no cold at all. In a similar
way, susceptibility to pollutants can vary greatly even among a group of healthy indi-
viduals.
Finally, there are always many influences on our health. If you develop symptoms that
might be caused by air pollution, it's often difficult to be sure that pollution was "the"
AQI Toolkit For Teachers
87
Symptoms Scenario
-------�
cause. Just as with other health problems, there are likely to be several factors affecting
your health.
How Much Do WQ Know?
One way to study the relationship between air pollution and health is to compare hos-
pital records and death records to pollutant levels. Researchers have found that dur-
ing extreme air pollution events, hospital admissions for respiratory problems increase.
Death rates also increase, especially among the elderly and those who already have
circulatory or respiratory problems.
Another type of research involves evaluating the physiological effects of exposure to
pollution. In general, we know that exposure to irritants in the air can cause inflamma-
tion and bronchioconstriction of the airways and reduce the effectiveness of bacteria-
destroying white blood cells. Irritants can also increase production of mucous, which,
although annoying, helps the cilia clear out the airways. Normally, the cilia of the
epithelial cells in the airways make sweeping movements to keep the airways clean. The
cilia move mucous, along with germs and dirt caught in the mucous, out of the respira-
tory tract. Air pollutants can irritate or kill the cells with cilia, so that the cilia's protec-
tive action slows down or even stops. This leaves sensitive tissues unprotected. Then
microorganisms and bits of foreign matter in the air are more likely to remain in the
lungs and can cause infections.
Although the part of our bodies most affected by air pollution is the respiratory system,
the circulatory system can also be affected. Exposure to unhealthy levels of air pollut-
ants can result in low oxygen levels in red blood cells, abnormal heart rhythms, and
increased risks of blood clots and narrowing of blood vessels. These effects can lead to
worsening of heart diseases such as heart failure and increased risks of heart attacks or
strokes.
The Pollutants Chart: Sources and Effects of Air Pollutants summarizes the sources and
health effects of two air pollutants: particle pollution and ground-level ozone. When
we inhale particle pollution (dust, soot, dirt, and liquid droplets, which may or may not
be visible), tiny bits of foreign matter can travel deep into the lungs where they become
lodged in the alveoli, which are small balloon-like sacs in which oxygen exchange oc-
curs. This is where carbon dioxide from the blood is exchanged for oxygen from the
air. Some particles can be exhaled or moved out by the cilia; other particles may sink
into underlying tissue or move into the blood stream. Health effects from particles
range from coughing and aggravated asthma to chronic bronchitis and even premature
death. For people with heart disease, exposure to particle pollution can cause serious
problems in a short period of time-even heart attacks-with no warning signs.
AQI Toolkit For Teachers 88 Symptoms Scenario
-------�
Ozone pollution, which is invisible, can irritate the respiratory system, reduce lung
function, inflame and damage the lining of the lungs and the cilia, and cause structural
damage of the lungs. Ozone pollution can also reduce the number and functioning abil-
ity of bacteria-destroying white blood cells. Ozone pollution can aggravate asthma and
increase people's susceptibility to respiratory illnesses like pneumonia and bronchitis.
Symptoms to watch for when ozone is in the air include coughing, pain when taking a
deep breath, and breathing difficulties, especially when active or exercising outdoors.
But ozone damage can also occur without any noticeable signs. For some people, sev-
eral months of repeated exposure to ozone can permanently damage the lungs.
It is important to know that ozone can have two very different effects, depending on
where it is in the atmosphere. "Good" ozone occurs naturally high up in the atmo-
sphere (the stratosphere), where it helps protect us from receiving too much of the
sun's harmful ultraviolet rays. "Bad" ozone at ground level is air pollution, as we have
been discussing, and can result in health and environmental problems. An easy way to
remember the difference is: "Ozone: good up high, bad nearby."
ThQ Air Quality lndox (AQI)
The Air Quality Index (AQI) provides information about the current day's and the next
day's air quality and includes descriptions of associated health effects. Ground-level
ozone and particle pollution are two of the five pollutants for which the U.S. Environ-
mental Protection Agency calculates an AQI. The AQI is like a yardstick that runs from 0
to 500. The higher the number, the greater the air pollution. The AQI has six color-coded
categories ranging from "Good" to "Hazardous." Each category corresponds to a differ-
ent level of health concern. The chart below lists the AQI categories, their correspond-
ing colors and numerical values, and associated health concerns for each category.
(Source: Students For Clean Air. Clean Air Program, Pi ma County Department of Environmental Quality, Tucson, Arizona)
AQI Toolkit For Teachers 89 Symptoms Scenario
-------�
Air Quality Index (AQI)
The Air Quality Index (AQI)
n . Color ., . Health Concerns
Category Value
Good
Green
0-50
Air quality is considered satisfactory,
and air pollution poses little or no
risk.
Moderate
Yollow
51-100
Air quality is acceptable; however,
for some pollutants there may be a
moderate health concern for a very
small number of people who are
unusually sensitive to air pollution.
Unhealthy
for Sensitive
Groups
Orange
101-150
Members of sensitive groups may
experience health effects. The gen-
eral public is not likely to be af-
fected.
Unhealthy
151-200
Everyone may begin to experience
health effects; members of sensitive
groups may experience more serious
health effects.
Very
Unhealthy
201-300
Health alert: everyone may experi-
ence more serious health effects.
Hazardous
Maroon
>300
Health warnings of emergency
conditions. The entire population is
more likely to be affected.
More information about the AQI is available at www.airnow.gov
AQI Toolkit For Teachers
90
Symptoms Scenario
-------�
Pollutants Chart:
Sources and Effects of Pollutants
on
on
II -O
jy ^ 5 ? 03
u rxi 2 " -tฑ! dj
S o -| ฃ o "
S.nb^ E *
P ^ ^ , 03 5
T3
C
03
O on
dj
_>- 03
03 *->
S 1 'i
on
O
. <_
, O dj O
' ' '
LO on
on
cn
eve
cu
ฃ ^
O ro
ง dJ
C _03
ฐ 'Z-
on dj
c :p 03
O 03 dj
B t; T3
_5 ง ฃZ
1.1 i
dj >- O
c: 03 o
O
M
dJ
O
8
T3
13
O
-
c~> ~c
O O
e
zo
O >-
~
03
dJ
O O
cu c= -a
-_ -
on
O
03 on
.^ on
Q_ dJ
on c:
2^ Jc
on en
O -^= on -^
en
o
cn
' u .h:
on
on
dj
03 on
> dj
03 on
cn S
en on
< '-E
on
dj
en
03 dj
u
03
O3
o
3
ง-
on
O
03
o
on
dj
T3
'x
O
c
dJ
en
O
o 9
T3
dJ
E
o .-t?
o ^
"a o
03
-o
<
03
-^
on _on
03 E
r- dj
X
03
dJ
Oi-iv on r~
cn ~^
^ >- 03 <-
.^-. o o .
cu .03 ro -g
dj ^3 cn
"o ^ on"
03 -p-
on~ on
"P .2 o
.E on Q.
O J_
-ii 03 dj
_Z5 Q- tJ
-= -a 03
g.^ E
dj 03 u
-=- O -I1
'-P O
Tl on Z3
ro -^ .y
0
dj
dj
O O
i- M
CD O
AQI Toolkit For Teachers
91
Symptoms Scenario
-------�
Symptoms Scenario A
Patient: Francisco (if man) or FranoQSoa (if woman) Cryalva
Family Mombor: JorgQ Gryalva (cousin)
Patient Use this information to introduce yourself and your family member to the class:
My name is Francisco (or Francesca) Grijalva. I used to be a runner years ago. I stopped for a few
years, but took it up again last year. Lately I've been feeling short of breath in the middle of my run.
This is my cousin Jorge, who is also my roommate. He'll tell you that I'm a pretty serious runner.
Patient and Family MemberUse this information to answer class questions about the patient:
34 years old
Lives and works in [fill in name of nearby city or town]
Works as a computer programmer
Works with a small, independent company
The office building he works in is well-ventilated
Running is an important personal interest
Other hobbies include hiking, bird-watching, and surfing the Net
Smoked from age 14 to 16, but "I quit when I got smart enough to know better"
Roommate smokes, but only outside, so Francisco is not breathing Jorge's smoke
Ran pretty regularly from age 20 to around age 30
Started running again last year, in December
Ran in the early morning, about 6:00 to 6:30 a.m., all winter
In April, started working an early schedule and running after work, around 2:00 pm
Last winter, felt refreshed and really "up" after running, just like years ago
Has been running very regularly and is confident he's in good shape
Lately has been feeling short of breath halfway through a run
He also notices that he seems to cough and needs to spit while running, which didn't happen
before
Has never had any lung or respiratory problems in the past
Cousin Jorge will vouch that Francisco has been running as regularly as he says-five or six times
a week, for over a year-so this can't be happening because he's in poor shape
AQI Toolkit For Teachers
92
Symptoms Scenario
-------�
Symptoms Scenario B
PatiQnt: Chris Chapman
Family Mombor: ROSQ Chapman (his wifo)
Patient-Use this information to introduce yourself:
My name is Chris Chapman. I have been having chest pain and chest tightness for the last two or
three months. Since these problems don't seem to be going away, I went to see my doctor last week.
She told me that I have arrhythmia, which is an irregular heartbeat. I had a minor heart attack when
was 56, but have felt pretty good since then.
Patient and Family Member-Use this information to answer class questions about the patient:
Chris is 62 years old
He retired early, at age 50
Never smoked cigarettes or anything
Used to work for the city as a technician installing and repairing traffic lights
They live in the city of
their children and grandchildren
Love kids
fill in nearby city] because they like living near
Every Monday through Friday, ever since retiring, Chris volunteers as a school crossing guard at a
busy intersection, helping kids get across the street
He does this for an elementary school and a middle school, that start at two different times, so
he's out there almost two hours early each morning and two hours each afternoon
Likes to wear white shirts, even though they always look really dirty after doing the crossing
guard work
They live in an apartment near the same intersection
Several factories are nearby
His hobbies include bowling, going to grandchildren's soccer and Softball games, babysitting for
the youngest granddaughter, and staying in close touch with world news
Not really into exercise or working out
Rose and Chris take a walk around the neighborhood a couple of times each week, usually right
after he finishes crossing guard duty
AQI Toolkit For Teachers
93
Symptoms Scenario
-------�
Symptoms Scenario C
PatiQnt: Jorrg Wolak
fiQeond PatiQnt: Dot Wolak
Patient: Use this information to introduce yourselves:
My name is Jerry Wolak and this is my wife Dot. We live in
town]. We came back from our afternoon walk feeling just awful.
fill in nearby city or
Patient and Second Patient: Use this information to answer class questions about the patients:
He's 58 years old
She's 48 years old
They take a brisk walk together almost every day, in mid-afternoon
Usually walk two miles, along a local canal, where it's quiet and there's no traffic
Jerry's interests include cooking, woodworking, and fishing
Dot's interests include painting and playing drums with a jazz band
Today was a beautiful sunny day and the first really hot day of spring
Today they took a different route than usual
The traffic was backed up for several blocks on one road, and they were curious why, so they de-
cided to turn up that road and see for themselves
Ended up sitting by the road for an hour in the middle of the walk, talking with a friend who was
stuck in the giant traffic jam
Near the end of the walk, both Jerry and Dot started wheezing and coughing
Dot was feeling some nausea
Jerry felt like his asthma was acting up for the first time in years
AQI Toolkit For Teachers
94
Symptoms Scenario
-------�
Group Task Cards
GROUP TASK CARD
PATIENT
You will play the role of
the primary character described on the
Symptom Scenario card. Using infor-
mation on the card, you will introduce
yourself to the class and then answer
questions from them. A member of your
family will help you answer questions.
After some time has passed, if you feel
that there is important information on
your Scenario card that has not been
covered by the questions, you may decide
to volunteer that information.
GROUP TASK CARD
FAMILY MEMBER
(or SECOND PATIENT)
You will play the role of someone in the
patient's family. The patient will introduce
you to the class, using information on
the Scenario card. You will then help the
patient answer questions from the class.
If questions are asked which are not
answered on the Scenario card, you will
consult with the patient about how to
best answer the questions (in a way that
would not alter the conclusion reached
by the class).
GROUP TASK CARD
CLASS MONITOR
It is your responsibility to
maintain order and designate whose turn
it is to ask a question. Call on those with
their hand raised so that they can ask
questions one at a time and everyone can
hear the answers. You will want to pace
the questions so that the Scribe has time
to write the answers on the board.
GROUP TASK CARD
SCRIBE
You are responsible for
writing information on the board as the
patient and his or her family member an-
swer questions from the class. Making a
list of this information will make it easier
for the class to focus on what they know
so far, choose good questions to ask
next, and determine the pollutant that is
associated with or causing the patient's
symptoms.
AQI Toolkit For Teachers
95
Symptoms Scenario
-------�
fitudont WorkshQQt #1:
What arQ the Health Impacts of Air Pollution?
Name:
Complete this worksheet after reviewing Background Reading: What Are the Health
Impactsof Air Pollution? and the Pollutants Chart: Sources and Effects of Air Pollutants.
Use the back of this page if more space is needed.
1. How much air do we breathe every minute?
2. Which body system is most likely to be affected by air pollutants?
3. Who is affected by air pollution?
4. Why is it difficult to determine the health effects of different air pollutants?
5. Briefly explain how researchers study the health impacts of air pollution.
6. Which system, besides the respiratory system, can be affected by air pollution?
7. Describe the health effects of particle pollution.
8. Describe the health effects of ground-level ozone.
AQI Toolkit For Teachers
96
Symptoms Scenario
-------�
fitudcmt Worksheet #2:
Which Pollutant?
Name:
Refer to the Background Reading: What Are the Health Impactsof Air Pollution? and the
Pollutants Chart: Sources and Effects of Air Pollutants as needed as you try to determine
the following information about the "patients" in each group. Enter your answers for
each patient below during group presentations and afterwards during class question
and answer sessions. You will be seeking information about:
Symptoms-Note key symptoms or behaviors in the patient.
Pollutant most likely to be associated with or causing symptoms-
Note the pollutant most likely to be associated with or cause these symptoms.
Health Precautions-Note precautions that could have been taken to prevent or
decrease the likelihood of the problem arising.
1. Francisco (or FranoQSoa) Gryalva (young adult runnor)
Symptoms:
Pollutant most likely to be associated with or causing symptoms:
Health Precautions:
AQI Toolkit For Teachers
97
Symptoms Scenario
-------�
(oontinuQd) fitudgnt WorkshQQt #2:
Which Pollutant?
2. Chris Chapman (crossing guard)
Symptoms:
Pollutant most likely to be associated with or causing symptoms:
Health Precautions:
3. Jorrg and Dot Wolak (middlQ-agod walkers)
Symptoms:
Pollutant most likely to be associated with or causing symptoms:
Health Precautions:
AQI Toolkit For Teachers
98
Symptoms Scenario
-------�
Teacher Answer Sheet #1:
What are the Health Impacts of Air Pollution?
[Instruct students to complete Worksheet #1 after reviewing the Background Reading:
What Are the Health ImpactsofAir Pollution? and the Pollutants Chart: Sources and
Effects of Air Pollutants]
1. How much air do we breathe every minute?/\nsi/i/er: 6 to 10 liters of air.
2. Which body system is most likely to be affected by air pollutants?
Answer.S'mct the respiratory system comes in direct contact with the air we breathe,
it is the body system most likely to be affected by air pollutants.
3. Who is affected by air pollution?
Answerer pollution can affect anyone. People with lung disease (and heart disease,
for particle pollution), children, adults who are active outdoors, and older adults
are at greater risk from air pollution. But even healthy teenagers, young adults, and
strong athletes can experience negative health effects from high levels of air pollu-
tion, especially when exercising outdoors.
4. Why is it difficult to determine the health effects of different air pollutants?
Answer: First, it would not be ethical for researchers to put people in a lab and ex-
pose them to high levels of a pollutant. Second, people who live in heavily polluted
areas often are exposed to more than one pollutant. In addition, the concentration
of each pollutant changes during the day. All of this makes it difficult to separate out
the effects of each pollutant. Also, some people are more susceptible to the effects
of air pollutants than other people.
5. Briefly explain how researchers study the health impacts of air pollution.
Answer: One way to study the relationship between air pollution and health is to
compare hospital records and death records to pollutant levels. Researchers have
found that during extreme air pollution events, hospital admissions for respiratory
problems increase. Death rates also increase, especially among the elderly and those
who already have circulatory or respiratory problems.
6. Which system, besides the respiratory system, can be affected by air pollution?
r:The circulatory system.
AQI Toolkit For Teachers 99 Symptoms Scenario
-------�
(oontinuQd) Teacher Answer Sheet #1:
What are the Health Impacts of Air Pollution?
7. Describe the health effects of particle pollution and ground-level ozone.
Answer:
When we inhale particle pollution, tiny particles get deep into the lungs.
Particle pollution can:
Irritate the eyes, nose, and throat
Produce coughing and phlegm
Result in chest tightness and breathing difficulties
Aggravate lung disease (including asthma) or heart disease
Reduce lung function in children (long-term exposure)
Cause chronic bronchitis (long-term exposure)
Result in premature death
When we inhale ozone, we may experience:
Coughing, wheezing, shortness of breath
Throat irritation, chest tightness
Pain with deep breathing
Reduced lung function
Aggravated lung disease, including asthma
Structural changes of the lungs (long-term exposure)
Premature death
Aggravation of heart or lung disease can lead to:
From exposure to ozone-
Increased medication use
Increased school absences
More doctor visits
From exposure to both particle pollution and ozone-
More symptoms of ill health
More emergency room visits
Increased hospital admissions
Increased number of deaths
AQI Toolkit For Teachers 100 Symptoms Scenario
-------�
Teacher Answer fiheet #2:
Which Pollutant?
Note: Instructions to students on Student Worksheet #2 are: Refer to the Back-
ground Reading: What Are the Health Impacts of Air Pollution? and the Pollutants
Chart: Sources and Effects of Air Pollutants as needed as you try to determine the
following information about the "patients" for each group. Enter your answers for
each patient below during group presentations and afterwards during class question
and answer sessions. You will be seeking information about:
SymptomsNote key symptoms or behaviors in the patient
Pollutant most likely associated with or causing symptoms-Note the pollut-
ant this is most likely to be associated with or causing these symptoms
Health PrecautionsNote precautions that could have been taken to prevent or
decrease the likelihood of the problem arising
1. figmptoms Scenario A: Francisco (or Franoesoa) Gryalva
(young adult runner)
Symptoms: Feeling short of breath, coughing and spitting while running, symptoms
occurring during outdoor exercise on summer afternoons
Pollutant most likely associated with or causing symptoms: Ground-level ozone
Health Precautions: Exercise outdoors in the early morning before ozone levels
begin to rise
Teacher Notes for Discussion of Symptoms Scenario A: Exposure to high ground-
level ozone concentrations can affect even healthy teens and active adults. In this sce-
nario, the time of day and time of year during which the problem occurs provide clues
that ground-level ozone, rather than another pollutant, is likely to be responsible.
2. figmptoms Scenario B: Chris Chapman (crossing guard)
Symptoms: Chest pain and chest tightness, previous heart attack, white shirt gets
dirty after crossing guard work
Pollutant most likely associated with or causing symptoms: Long exposure to
high levels of air pollutants, especially particle pollution, from work installing traffic
lights, working as a crossing guard, and taking walks in the area
AQI Toolkit For Teachers 101 Symptoms Scenario
-------�
(oontinuQd) Teacher Answer fiheet #2:
Which Pollutant?
Health Precautions: Check the AQI when particle pollution is "Unhealthy." Be sure
to take walks on less busy roads with less traffic pollution. (And don't wear white
shirts!)
Teacher Notes for Discussion of Symptoms Scenario B: The busy traffic inter-
section and the presence of several factories in the area are indications that high
amounts of particle pollution may be present. Also, particle pollution can be high at
any time of day or year, even early mornings, and in winter (while ozone is usually
higher in the afternoons and evenings, in warmer weather.)
3. figmptoms Scenario C: Jerry and Dot Wolak
(middle-aged walkers)
Symptoms: Wheezing and coughing, feeling queasy, asthma acting up
Pollutant most likely associated with causing symptoms: Ground-level ozone
Health Precautions: Avoid exercising along busy roads. Avoid exercising during the
times of day when ozone levels are highest (which is late afternoon or early eve-
ning).
Teacher Notes for Discussion of Symptoms Scenario C: The time of day (mid-
afternoon) and the fact that it's a warm, sunny day are clues that ozone is the prob-
lem, in addition to the actual physical symptoms. Even young, trained endurance
athletes can suffer similar symptoms at unhealthy ozone levels.
AQI Toolkit For Teachers 102 Symptoms Scenario
-------�
Tracking Air Quality
Learning Objectives
Students will:
Observe air quality changes and the impact of weather on air quality.
Demonstrate data gathering and analysis skills and graphing skills.
Apply techniques of comparison and critical thinking.
Grade Level: Grades 6-8
Estimated Time: 30 minutes - 1 hour per session
(6 sessions, optional)
Background fiummarg
In this activity, students locate and study color-coded
maps from the Internet showing air quality data for
their area. By graphing the data from these maps and
discussing the results, they learn how clean or pol-
luted the air they breathe is, the extent of the ozone
season in their area, and the relationship between
weather and air pollution. While learning about air
pollution, they build their research, graphing, and
critical thinking skills.
Through this activity, they also become familiar with
the Air Quality Index-a standard index for report-
ing daily air quality to the public. Students learn how
the different colors of the AQI scale correspond to
different levels of health concern. They also learn who
may be affected at different levels of ozone pollution
and particle pollution and what steps can be taken to
protect health from air pollution.
Materials Needed
Internet access
Student Worksheets (included)
Colored pencils/markers in black, green, yellow,
orange, red, and purple
Keg Questions
See questions posed in Activities 1 through 6.
Vooabularg
Ozone-A gas that occurs naturally in the Earth's
upper atmosphere (stratosphere) and also at ground
level. Ozone can be "good" or "bad" for people's health
and the environment, depending on its location. High
up in the atmosphere, ozone helps protect people
from too much ultraviolet radiation from the sun.
Near the Earth's surface, ozone is an air pollutant that
can result in breathing difficulties.
React-When two or more chemicals interact and
form a new chemical.
Elevated-Increased in amount or degree.
Episode-Exceeding usual conditions.
Forecast-Predict in advance.
Particle pollution-Tiny particles of dust, dirt, smoke,
and iquid droplets in the air.
General Directions
This activity has a number of variations, all of which
involve accessing, observing, and gathering data from
AQI color-coded air quality maps on the Internet.
Students can be assigned an activity on their own, if
they have individual access to the Internet. Or, they
can work in teams; each team will need Internet ac-
cess. If teams are used, the work can be divided in a
number of ways. For example, each team can graph
data for a different year (in which case three teams
can be used) and then the teams can compare their
data. Or, each team can focus on air quality data for a
particular month in each of the three years. The team
then can summarize the data for that month and note
any trends.
Accessing and Navigating Air
Qualitg Maps
1. Explain that students will research and graph
daily changes in ground-level ozone levels. Inform
students that the effects of ground-level ozone
are different than those of the ozone layer high up
in the atmosphere (the stratosphere). The ozone
layer helps protect us from too much ultraviolet
AQI Toolkit For Teachers
103
Tracking Air Quality
-------�
radiation from the sun. In contrast, ground-level
ozone is a pollutant that can result in breathing
difficulties.
2. Provide students with copies of the graph of "Air
Quality Versus Time" (Student Worksheet #1).
(This graph has an "x" axis labeled "date" with a
scale of 31 days and a "y" axis labeled "Air Quality
Index" with a scale of 0 to 300. Note: The AQI scale
actually runs to 500, a hazardous level that would
trigger health warnings of emergency conditions,
but pollution levels in the U.S. virtually never rise
above 300.)
3. Have each student/team access the following
Internet data:
Archived air quality maps at: www.airnow.gov -
a) Click on the "More Maps" tab.
b) Select "Archived Maps by Region." Here students
can see all the maps for a whole month at a time.
c) For "Map Type," select "Ozone" (or "Particles" if you
are doing Activity 6). Other options are for "Map
Region," "Month," and "Year." You may want the
students to choose the region they live in, or you
may have them examine a region with more ozone
(or particles) such as California or the South. You
may want to choose areas in advance so that you
know ahead of time that they will be good for
teaching purposes.
4. Ask students to click on "Air Quality Index (AQI)"
in the "Links A-Z" box to observe the color-coded
AQI scale. Each color corresponds to a segment of
the AQI scale. Ask students to use colored mark-
ers to mark these segments on the "y" axis of their
Student Worksheet #1 graph as follows: green =
0 to 50; yellow = 51 to 100; orange = 101 to 150;
red = 151 to 200; purple = 201 to 300. Have stu-
dents label these segments as indicated in the key:
good, moderate, unhealthy for sensitive groups,
unhealthy, very unhealthy.
5. Ask students to click on "Publications" in the "Links
A-Z" box on any page at www.airnow.gov. On the
"Publications" page, find the "Air Quality Guide for
Ozone." Ask them to look at this guide and notice
that the right-hand column has specific messages
about how people can protect their health at each
different level of ozone pollution.
6. For Activity 4, students will need to access three
ozone animation maps located here: www.epa.gov/
airnow/teachers/toolkit/maps/. They may need to
watch each animation several times to complete
the task.
AQI Toolkit For Teachers
104
Tracking Air Quality
-------�
Activity 1: Graph Ozone Levels for the Warm
Months of the Year
Estimated Time: 1 hour (ormore depending on the number ofstudents and the num-
ber of questions you ask them)
Summary: At ground level, ozone forms when the chemicals nitrogen oxides (N0x) and
volatile organic compounds (VOC) react in the presence of heat and sunlight. Therefore,
ground-level ozone pollution tends to form in warm weather. Each area's ozone season
will be as long or as short as the number of warmer months. For this activity, students
observe how ozone levels change over several consecutive months and record their
observations on the graph "Air Quality Versus Time" (Student Worksheet #1). Students
should have a separate graph for each month. If possible, ask students to gather data
for all warmer months (i.e., months when temperatures tend to be consistently in the
70s or higher), as well as the cooler month just before and after the warm months. They
can gather each month's data fairly quickly by observing the AIRNow Web page that
displays all maps for that month (see Step 3 above under "Accessing and Navigating Air
Quality Maps"). Though the maps are small, the colors can be observed reasonably well.
If there is any question about what the colors are on the map, students can click on the
map to observe it in a larger size. For each day of each month, ask students to record
on their "Air Quality Versus Time" graph for that month the highest AQI color they see.
For example, if they see the colors green, yellow, and orange on a map, they should re-
cord that day as "orange" by marking the highest AQI level on the "orange" segment of
the "y" axis (i.e., all orange days are marked as "150" which is the highest AQI level for
orange; all green days are marked as "50" which is the highest AQI level for green, etc.).
Now ask students to fill out the table "Total Number of Days Each Month with Elevated
Ozone Levels" (Student Worksheet #2) to record the total number of days in each
month with ozone levels that were green, yellow, orange, and red.
After preparing the graphs and table, students can be asked any or all of the following
questions:
1. What was the first day for that year when ozone levels were elevated
(i.e., yellow or higher)?
2. What was the last day for that year when ozone levels were elevated?
3. Which month had the most green days?
4. Which month had the most yellow days?
5. Which month had the most orange days?
AQI Toolkit For Teachers
105
Tracking Air Quality
-------�
6. Which month had the most red days?
7. Which month had the most purple days?
8. What was the longest ozone "episode"? In other words, what was the most
number of days in a row that ozone was elevated in any of these months?
9. Which month of the year was the worst month for ozone (i.e., had the most days
when ozone was higher than green)? Which was the next worse ozone month?
10. Rank the months according to how bad they were for ozone, starting with the
worst month at the top and the best month at the bottom. Now think about how
hot these months are. What do you notice about ozone levels in hotter months?
11. How many total days over all these months were ozone levels elevated
(i.e., higher than green)?
12. What percentage of days over these months were ozone levels elevated?
13. Who are the people that must be careful when ozone is at an orange lev-
el ("Unhealthy for Sensitive Groups") or above? (Refer students to "Links
A-Z" at the bottom of any page on www.airnow.gov. Click on the "Air Qual-
ity Index (AQI)" page, or click on "Publications" and look in the Air Qual-
ity Guide for Ozone. Note-The answer is: People with lung disease [such
as asthma], and children and adults who are active outdoors.)
AQI Toolkit For Teachers 106 Tracking Air Quality
-------�
Activity 2: Compare Ozone Levels Over
Three Years
Estimated Time: 30 minutes (to answer the questions below after students have pre-
pared the graphs and table as described under Activity 1)
Ask students to create the graphs and table described under Activity 1 for three ar-
chived years of ozone data. For each of the questions under Activity 1, have students
compare the answers for the three years to answer these additional questions:
1. Which year had the longest ozone season (i.e., the time period from the first day
ozone was observed to the last day)?
2. When you ranked the months from worst to best based on number of days of el-
evated ozone, were the results the same for each year or different? Does there seem
to be any pattern to when ozone levels are elevated in this area? How would you
describe that pattern?
3. Children can be sensitive to ozone when it reaches orange levels (see Activity 1, Step
13). During what time period of the year might it be a good idea to check the AQI
forecast regularly?
AQI Toolkit For Teachers
107
Tracking Air Quality
-------�
Activity 3: Graph and Compare Ozone Levels in
One Region of the U.2. versus Another
Estimated Time: 20 minutes (after students have prepared the graphs and table as
described under Activity 1 for both regions)
Summary: Different areas of the U.S. have significantly different ozone seasons de-
pending on a number of factors, including climate, pollution sources, and regional
transport of pollution away from one area and into another. For this activity, students
will create the graphs and table as described under Activity 1 for the same year for two
very different areas of the United States. They will answer the questions listed under
Activity 1 for each area, and then compare the two areas by answering these addi-
tional questions. This will be most interesting if you pick an area that contrasts with
your region. For example, if you live in an area where ozone is less often a problem (for
example, the Northwest or Hawaii), have students compare that to areas with more
frequently elevated ozone levels (such as California, the South and Southwest, and the
Mid-Atlantic and Northeast states)-or vice versa. Once the graphs and table have been
prepared, ask students to use the data to answer the following questions:
1. Which region has the longest ozone season? By how much do the two seasons dif-
fer? Do you think this is related to temperature in these areas?
2. Compare the total number of days in each region that ozone was elevated. How
much worse was ozone pollution in one region versus the other?
3. Compare the length of the longest ozone episode in the two regions. Was the longest
ozone episode in the region during the longest ozone season?
AQI Toolkit For Teachers
108
Tracking Air Quality
-------�
Activity 4: Graph and Compare Ozone Levels
Over the Course of the Day
Estimated Time: 45 minutes
Summary: Ozone levels tend to be lowest in the morning, rise during the afternoon,
and then decline later in the evening. This is because (1) temperature and sunlight
catalyze the formation of ozone, and (2) the pollutants from human activities (such
as transportation) that react to form ozone tend to increase during the day and early
evening.
For this activity, students will hypothesize what they expect to observe about ozone
levels over the course of a day based on an understanding of how ozone is formed.
They will then observe actual ozone levels over the course of three days to test whether
their hypothesis is correct. They will record their observations on the table called "Daily
Air Quality for " (Student Worksheet #3). The rows of the table are marked off in
1-hour increments. The columns correspond to the ozone level (as indicated by the AQI
color) for each day.
Start the activity by explaining that ozone at ground level is not emitted directly. Rath-
er, it is formed when two types of pollutants (nitrogen oxides and volatile organic com-
pounds) react in the presence of heat and sunlight. Explain that sources of nitrogen
oxides and volatile organic compounds include cars, power plants, and chemical plants.
Ask students: If ozone needs heat and sunlight to form, when during the day do you
think ozone levels will be highest? Then ask them to record data, as described below, to
test their hypothesis.
For this exercise, students will use ozone "animation" maps from three areas of the U.S.
that tend to have unhealthy ozone levels in warm months.
Ask students to go to www.epa.gov/airnow/teachers/toolkit/maps/
These maps loop through the ozone levels in 20-minute increments. The date and time
are shown on the map. Have the students record the highest AQI color for each hour.
The animation is rapid, but tell students they can watch the animation as many times
as they need to be able to write down one color for each hour. After the students have
filled out all the ozone levels for one day, they should do the same for the second map
and then the third. At this point, they should have enough data to answer the following
questions:
1. Of the three days, what was the earliest time that ozone was elevated (i.e., above
green)?
2. Of the three days, what was the latest time that ozone was elevated?
AQI Toolkit For Teachers 109 Tracking Air Quality
-------�
3. For each day, what time of day was the ozone level the highest?
4. For each day, what time of day was ozone at the green level (i.e., not elevated)?
5. Based on these data, was your hypothesis about ozone correct?
6. When ozone levels are elevated, especially starting at an orange or red level, it's a
good idea to take it easier when you're outside (so you don't breathe as much or as
deeply). You can cut back on vigorous outdoor activities. If the air quality forecast
predicts ozone pollution for a summer day, what time of day should you think about
taking it easier?
AQI Toolkit For Teachers 110 Tracking Air Quality
-------�
Activity 5: Graph Real-Time Ozone Data for a
Month During Ozone Season
Estimated Time: 20 minutes the first day, 5 minutes per day after that, and 20 minutes
for discussion on the final day.
If school is in session in your area during the ozone season, students can track the
actual ozone forecast and levels each school day for a month. They can compare the
forecast data to the actual data to see how accurate the forecasts are. They can also
track the peak temperature each day to see whether there is a correlation between
ozone levels and temperature.
Each day, at the same time of day if possible, have students record the following data
on the "Daily Ozone Forecast, Peak Ozone Level, and Daily Peak Temperature" table (Stu-
dent Worksheet #4):
Ozone forecast. Ask students to visit the AIRNow Web site at: www.airnow.gov. Ask
them to record the day's ozone forecast for a city or area that you or they choose. To
find an area, enter the zip code in the "Local Air Quality Conditions" box and click GO.
Or, click on "U.S. Air Quality Summary" and then click on the area which will be listed
under its state. This will bring them to a page that provides "Air Quality Forecast,"
"Current Conditions," and "Past Air Quality Maps and Data." Students should record
both ozone forecasts (Today and Tomorrow), as available, on the Worksheet table.
Note that the ozone-specific forecasts are found under "AQI - Pollutant Details" in
the "Air Quality Forecast" box.
Yesterday's peak ozone level. Then ask students to record the peak ozone level for
that city for the prior day. Students can access yesterday's peak level data using the
"Past Air Quality Maps and Data" box mentioned above. Click on "Yesterday's Maps
and Data" to see yesterday's value for ozone.
Yesterday's peak temperature. Ask students to record the peak temperature by go-
ing to www.wunderground.com then entering the city and state or zip code. This will
take them to a page of data for that city. Ask them to scroll down the page to an
area called "Weather History 6t Almanac." In this box, for most cities, they will find
yesterday's maximum temperature, which they should record on their tables. For
cities which yesterday's temperature is not provided, they can click on "Yesterday's
Official Weather and Almanac" for nearby areas.
AQI Toolkit For Teachers
111
Tracking Air Quality
-------�
Once students have gathered a month's worth of data, they can answer the following
questions:
1. For each day of the month, compare the forecast ozone level with the actual ozone
AQI level. For how many days did the forecast accurately predict the day's ozone
level? For how many days did the forecast predict that ozone levels would be higher
than they were? For how many days did the forecast predict ozone levels would be
lower than they were?
2. Calculate the average temperature for all days when the ozone level was green. Then
calculate the average temperature for all days when the ozone level was yellow, for
all days when the ozone level was orange, and for all days when the ozone level was
red. What do you notice about temperature and ozone levels?
3. What ideas do you have for reducing ozone pollution during the day? (Possible an-
swers include: drive less by walking, biking, carpooling, or using public transporta-
tion. Turn off lights and equipment when you aren't using them; conserving electric-
ity means less pollution generated by power plants. Every little bit helps!)
AQI Toolkit For Teachers 112 Tracking Air Quality
-------�
Activity 6: Compare Ozone and
Particle Pollution
Estimated Time: 30 to 60 minutes depending on how many months of data are
gathered.
Summary: Particle pollution and ground-level ozone behave in very different ways.
Ground-level ozone forms in warm weather and is generally highest in the afternoon
and early evening. Particle pollution can be high at any time of year and any time of
day. It can be particularly bad in winter during inversions, when warm air traps pol-
lution in a location for a period of time. For this activity, students will gather data for
levels of particle pollution throughout the year and compare these data with what they
have observed for ozone in the earlier activities. Have students record their observa-
tions on the graph "Air Quality vs. Time" (Student Worksheet 1). Students should have a
separate graph for each month.
They can gather each month's data fairly quickly by observing the AIRNow Web page
that displays all maps for that month (see Step 3 above under "Accessing and Navigat-
ing Air Quality Maps"). Though the maps are small, the colors can be observed reason-
ably well. If there is any question about what the colors are on the map, students can
click on the map to observe it in a larger size. For each day of each month, ask students
to record on their "Air Quality Versus Time" graph for that month the highest AQI color
they see. For example, if they see the colors green, yellow, and orange on a map, they
should record that day as "orange" by marking the highest AQI level on the "orange"
segment of the "y" axis (i.e., all orange days are marked as "150" which is the highest
AQI level for orange; all green days are marked as "50" which is the highest AQI level
for green, etc.).
Now ask students to fill out the table "Total Number of Days Each Month with Elevated
Particle Levels" (Student Worksheet #5) to record the total number of days in each
month with particle levels that were green, yellow, orange, red, and purple.
Then have students answer these questions:
1. Were there any months when particle pollution was never elevated above the green
level?
2. Are there any times of year when particle pollution appears to be worse? How does
this compare with ozone?
AQI Toolkit For Teachers
113
Tracking Air Quality
-------�
Explain that particle pollution affects health in a different way than ozone, so the
advice given to protect your health when particle pollution is elevated is different than
the advice given for ozone. Have students access the Air Quality Guide for Particle Pollu-
tion by clicking on the AQI colors to the right of the particle pollution maps. Ask:
1. Who is "sensitive" to particle pollution?
2. How does this differ from who is sensitive to ozone pollution?
3. If you have asthma, at what AQI level should you consider taking it easy when you
are active outside? (Answer: Orange, unless you are unusually sensitive, in which
case, yellow.)
AQI Toolkit For Teachers 114 Tracking Air Quality
-------�
For Further Exploration
If it is winter and you live in an area that tends to
have inversions, students can track real-time air pol-
lution data for particle pollution, as well as tempera-
ture and wind speed, as described for ozone under
Activity 5. Also, have students track local weather
reports for information on when temperature inver-
sions are occurring and report back to the class.
Ask students: What did you observe about particle
pollution levels during the inversion? Is there a
relationship between cold temperatures and inver-
sions? Is there a relationship between wind speed
and inversions?
Have students write a report on what a tempera-
ture inversion is.
Also see the lesson plans on temperature inversions in
this toolkit (Trapping Air Pollution: Temperature Inver-
sions #1, for Grades 3-5; and Trapping Air Pollution:
Temperature Inversions #2, for Grades 6-8).
AeknowlQdgmQnts/RQSOuroQS
Air Pollution: What's the Solution? See various URLs,
including:
www.k12science.org/curriculum/airproj/
Baines, J. 1990. Conserving Our World, Conserving the
Atmosphere. Austin, TX: Steck-Vaughn Company.
Catherall, E. 1990. Exploring Weather. Austin, TX:
Stech-Vaughn Company.
Climate: Worldwide Weather Threatens Millions. 1989.
USAToday Magazine 117, p. 1 (April).
Cosgrove, B. 1991. Eyewitness Books: Weather. New
York: Alfred A. Knopf.
Freiman. C. and N. Karkowsky. 1993. Weathering the
Summer of 1993. Science World 50 (22) (October).
Gibbons, G. 1992. Weather Forecasting. New York:
Chelsea House Publishers.
Project A. .R.E. Tracking Air Quality, at: www.epa.gov/
regionOI/students/pdfs/warm e.pdf
Trefil. J. 1990. Modeling Earth's Future Climate Re-
quires Both Science and Guesswork. Smithsonian 21,
p. 28 (December).
Noxt GonQration
Standards
Chemical Reactions
Human Impacts
Weather and Climate
Engineering Design
AQI Toolkit For Teachers
115
Tracking Air Quality
-------�
S
xppu| Aiijeno J!V
o
m
o>
CM
00
(M
CM
CD
CM
in
CM
CO
CM
C\l
CM
O
CM
Ql
P
ง2
0>
00
CD
co
a
co
T
CM
o
0>
m
n
AQI Toolkit For Teachers
116
Tracking Air Quality
-------�
O)
3
QJ
I
o
5
_Q)
LU
-C
O
JC
c
OJ
Ul
e/i
OJ
O
^
u
QJ
"I
i
c
Q)
2
o
!
Ql
CT
I
O
Q)
a.
a
ง
AQI Toolkit For Teachers
117
Tracking Air Quality
-------�
fitudcmt Worksheet #3: Activity 4
Daily Air Quality for
Time of Day
12a.m.
1 a.m.
2a.m.
3 a.m.
4 a.m.
5 a.m.
6 a.m.
7 a.m.
8 a.m.
9 a.m.
10a.m.
11 a.m.
12p.m.
1 p.m.
2p.m.
3 p.m.
4 p.m.
5 p.m.
6 p.m.
7 p.m.
8 p.m.
9 p.m.
10p.m.
11 p.m.
Highest AQI Color
ObsQrvQd on (Dale)
Highest AQI Color
ObsQrvQd on (Dale)
Highest AQI Color
ObsQrvQd on (Dale)
AQI Toolkit For Teachers
118
Tracking Air Quality
-------�
fitudont WorkshQQt #4: Activity 5
Daily OZORQ Forooast, Peak Ozone Level, and
Daily Peak TempQraturQ
Day of the
Month
Ozone Forecast
Today Tomorrow:
Actual Peak Ozone
Level
Actual Peak
Temperature
AQI Toolkit For Teachers
119
Tracking Air Quality
-------�
O)
Q)
p.
a
5
QJ
JC
"c
o
c
OJ
Ul
e/i
OJ
O
15
u
QJ
C
Q)
2
o
!
Q)
CT
I
O
Q)
a.
a
& 2 c
> Q) QJ
< ^ 2
AQI Toolkit For Teachers
120
Tracking Air Quality
-------�
fimog Alort
Learning ObJQotivQS
Students will:
Create artificial "smog" in a jar.
Recognize that invisible air pollutants and weather conditions are involved in
creating smog.
Understand that not all air pollution is visible.
Appreciate that human activities can cause air pollution.
Grade LQVQ!: Grades 6-8
(NotQ: With careful supervision, this activity can also be done with Grades 3-5)
EstimatQd Timo: 20 minutes
Background fiummarg
The expression "smog" was first used in "Turn-of-
the-Century" London to describe a combination of
"smoke" and "fog." Smog occurred when water vapor
in the air condensed on small particles of soot in
the air, forming small smog droplets. Thousands of
Londoners died of pneumonia-like diseases due to the
poisonous air.
Ozone is a primary ingredient of smog. Ozone is
formed when pollutants in the air, called "precursors"
(notably nitrogen oxides, or N0x, and volatile organic
compounds, or VOCs), are heated by the sun and react
chemically. The pollutants that form ground-level
ozone are produced by sources such as automobile
exhaust, industry and power plant smokestacks, and
fumes from chemical solvents such as paint thinner
or pesticides.
Ground-level ozone pollution is harmful to our health
and environment; in contrast, the ozone layer that is
high up in the atmosphere (the stratosphere) helps
protect us from the sun's harmful ultraviolet radia-
tion. An easy way to remember this difference is
"Ozone: good up high, bad nearby."
Weather conditions such as the lack of wind or a
"thermal inversion" can cause ozone to be trapped
over a particular area. (A thermal inversion occurs
when a layer of warm air in the Earth's atmosphere
traps cold air and pollution, including ground-level
ozone, below it). (Note: Also see Trapping Air Pollu-
tion: Jemperature Inversions #} and #2 lessons in this
toolkit.)
Ground-level ozone can cause health problems such
as difficulty breathing, aggravated asthma, reduced
resistance to lung infections, colds, and eye irritation.
Severe smog and ground-level ozone problems often
occur in many major cities, although wind can also
carry it to more rural areas.
Materials Needed
Clean, dry, wide-mouth glass jar (e.g., mayonnaise
jar)
Heavy aluminum foil
Two or three icecubes
Ruler
Scissors
Stop watch or watch with second hand
Matches
Keg Questions
Do you think you've ever seen smog? What do
you think it's made of? What about ground-level
ozone?
Do you think smog can affect people's health? If
so, how?
Vooabularg
Precursor-A compound that reacts and produces
another compound.
Ozone-A gas that occurs both in the Earth's upper
atmosphere and at ground level. Ozone can be "good"
or "bad" for people's health and the environment,
depending on its location in the atmosphere. High
up in the atmosphere, ozone helps protect people's
health from too much ultraviolet radiation from the
sun. Near the Earth's surface, ozone is an air pollutant
that can result in breathing difficulties.
AQI Toolkit For Teachers
121
2mog Alert
-------�
Model-A representation of a system that allows for
investigation of the properties of the system.
Check with the school principal or
facilities manager to make sure this
activity is allowed in the classroom.
Be careful if you conduct this activ-
ity. The teacher may want to (or be
required to) use matches instead of
having the students do so. If students
use the matches, they should do so
only under teacher supervision.
1. Explain that the class will perform an experiment
in which they will create artificial "smog" in a jar.
Make sure that students understand that the jar
is only a model, and models by nature are lim-
ited. For example, the purpose of this model is to
illustrate the appearance and behavior of smog,
not the composition or effects. It is important to
understand that smog is not just a "smoky fog,"
but a specific phenomenon.
2. Select students to perform the experiment. Have
a student cut a strip of paper about 6 inches by
2 inches. Fold the strip in half and twist it into a
rope.
3. Have students make a snug lid for the jar out of a
piece of aluminum foil. Shape a small depression
in the foil lid to keep the ice cubes from sliding off.
Carefully remove the foil and set it aside.
4. Have the students put some water in the jar and
swish it around to wet all of the inside of the jar.
Pour out the extra water.
5. The teacher (or possibly the students under teach-
er supervision, if school rules allow it) then lights
the paper "rope" with a match and drops it and
the match into the damp jar. Quickly put the foil
lid back on the jar and seal it tightly. Put ice cubes
on the lid to make it cold. (The ice cubes will make
the water vapor in the jar condense.) Students
must do this step very quickly, perhaps with some
assistance.
6. Ask students to describe what they see in the jar.
How is this like real smog? What conditions in the
jar produced "smog"? (Co/reef answer: Moisture
and soot particles from the burning matches, plus
carbon dioxide and other solvent vapors.)
7. Ask the students if they have ever seen smog (not
fog).
| For Further Exploration
Have students put a glass (not plastic) thermometer
into the jar before they do the experiment. Have them
record the temperature before proceeding to step 4.
Have them record the temperature again during step
5. Ask them to describe what the temperature did and
why. Let them try it again without adding water.
Assign students to small groups to answer the follow-
ing questions and report back to class in two weeks.
One group will consider the physical and chemical
sciences and the other group will consider the health
and ecological sciences. Each group should consider
referring to several sources of information to answer
the questions. Students could possibly interview a
weather reporter or meteorologist at the local televi-
sion or radio station or airport, or a health scientist
from the city or county health department or air
quality agency.
(a) What conditions are necessary to produce smog in
the air? Under what circumstances will these con-
ditions exist in the city? How often are they likely?
Can they be predicted in advance?
(b) What are the health effects of smog on people?
Why doesn't everyone in the city get sick or have
similar symptoms from smog? What types of
people are most sensitive to ground-level ozone?
What types of people are sensitive to particle pol-
lution?
AeknowlQdgmQnts/RQSOuroQS
Project A. .R.E. (Air Information Resources for Educa-
tors), EPA Region 1: New England Educational Re-
sources Library, Activity 14. URL: www.epa.gov/ne/
students/pdfs/activl 4.pdf
Easterbrook, G. 1993. Winning the War on Smog.
Newsweek 122 (23) (August).
Pasternak, J. 1991. Long-Term Lung Damage Linked
to Air Pollution; Respiratory Deterioration Is Found in
Areas Where Air Is Dirtiest. Los Angeles Times (29), p.
A1 (March).
Smog Blamed for Increase in Asthma Cases. 1991. Los
Angeles Times (2), p. A1 (December).
AQI Toolkit For Teachers
122
2mog Alert
-------�
Scott, G. 1992. Two Faces of Ozone. Current Health 19
(2), p. 24 (September).
Noxt GonQration
Standards
Human Impacts
Earth's Systems
Weather and Climate
Engineering Design
AQI Toolkit For Teachers 123 fimog Alert
-------�
-------�
Trapping Air Pollution: Temperature Inversions #2
Learning Objectives
Students will:
Determine whether a temperature inversion has occurred in a specific
location.
Explore the AIRNow Web site for air quality (particle pollution) informa-
tion and changes, and the Weather Underground Web site for related
weather data.
Learn how temperature inversions and wind can trap air pollutants, affect
air quality, and impact health.
Grade Level: Grades 6-8
Estimated Time: 1.5 hours
Background fiummarg
See the Temperature Inversions, Weather, and Air
Quality: Background Information handout.
Materials Needed
Internet access
Copies of Temperature Inversions, Weather, and Air
Quality: Background Information handout (one per
student)
Copies of Temperature Inversion graphic handout
(one per student)
Student Worksheet
Teacher Answer Sheet
Keg Questions
Normally, do you think air temperature is cooler or
warmer the higher up you go in the atmosphere?
[Correctanswer/The air is usually cooler higher up
in the atmosphere.)
What weather conditions do you think might
contribute to temperature inversions? (Possible
answers: temperature, wind, sky cover, length of
night time, high pressure systems.)
How can temperature inversions affect air quality
and people's health? (Possibleanswer:Temperature
inversions can trap air pollutants and make air
quality worse. If people breathe in more air pol-
lution, they may have trouble breathing and may
have more health problems.)
Vooabularg
Temperature inversionA layer of warm air that pre-
vents the rise of cooler air and pollutants beneath it.
StagnantNot circulating or flowing.
fiteps
1. Distribute the Temperature Inversions, Weather,
and Air Quality: Background Information handout
and the Temperature Inversion graphic handout to
the class and discuss the information. Tell students
that they can refer to these materials as they con-
duct the activities in this lesson.
2. Have students access the Air Qual-
ity Index (AQI) chart at the bottom of the
Air Quality Index page on the AirNow
Web site (the last chart on the page):
www.airnow.gov/index.cfm?action=aqibasics.aqi
Discuss the AQI with the c/ass/Tell students to
think of the AQI as a yardstick that runs from 0
to 500. The higher the AQI value, the greater the
level of air pollution and the greater the health
concern. The AQI is divided into six categories,
based on numerical values, as shown in the chart.
Each category is assigned a specific color, indicat-
ing air quality levels ranging from good (green) to
unhealthy (red) to hazardous (purple). The column
on the right of the chart ("Meaning") explains
the possible health effects associated with each
AQI level. The AQI is reported daily for five major
air pollutants. This lesson will explore the AQI for
particles, one of these five pollutants.
AQI Teachers Toolkit
125 Trapping Air Pollution: Temperature Inversions #2
-------�
3. Distribute the Student Worksheet. Have students
examine the particles map included in the Student
Worksheet for Salt Lake City, Utah on January 1,
2004. (Step 1 on the Student Worksheet.)
Tell students that particle pollution is expressed as
colored circles that correspond to the AQI colors.
Asktheclass:What Air Quality Index (AQI) level
(color and corresponding meaning) was reached
for particles on January 1, 2004, for Salt Lake City?
Tell students to record the answer in Question #1
on their Student Worksheet. (See Teacher Answer
Sheet for answers to all questions.)
4. Next have students access the Weather Under-
ground Web site and tell them to obtain the fol-
lowing weather conditions: maximum and mini-
mum actual temperatures (in Farenheight degrees)
and maximum wind speed (in miles per hour) for
Salt Lake City, Utah on January 1, 2004. (Students
should ignore the other weather data.)
(If anyone has trouble accessing this Web page,
the URL is: www.wunderground.com/history/air-
port/KSLC/2004/1/1/DailvHistorv.html)
Tell the class to record the weather data (tempera-
ture and wind speed) for Salt Lake City on January
1, 2004 on their Student Worksheet in the blank
chart, which is Question #2a of their Student
Worksheet.
5. Ask the class if anyone skis or snowboards. Tell
students to examine the weather conditions for
Snowbird Ski Area on January 1, 2004 provided in
the chart on their Worksheet Question #2b.
Ask students to compare the weather conditions
(temperature and wind) for January 1, 2004 in
Salt Lake City (Chart 2a of their worksheets) to
the same weather conditions at Snowbird Ski Area
(Chart 2b), which is just outside of Salt Lake City,
on the same day.
Tell students to record their observations about
the weather in the two locations (Salt Lake City
and Snowbird) in Question #2c of their work-
sheets, as it relates to previous class readings and
discussions about temperature inversions. Discuss
students' answers for Student Worksheet Ques-
tions #2b and #2c and the correct answers.
6. Now have students graph the temperatures in Salt
Lake City for January 1, 2004 as instructed on the
blank graph in Question #3 of the Student Work-
sheet.
7. Next have students graph the temperatures at
Snowbird for January 1, 2004 as instructed on the
blank graph in Question #4 of the Student Work-
sheet.
Review and discuss students' graphs in Worksheet
Questions #3 and #4 and the correct graphs (see
Teacher Answer Sheet).
8. Tell students to examine the particles map in-
cluded in the Student Worksheet for Salt Lake City,
Utah on January 9, 2004.
Ask the class: What Air Quality Index (AQI) level
(color and meaning) was reached for particles on
January 9, 2004, in Salt Lake City? Tell students to
record the answer in Question #5 on their Student
Worksheet.
9. Have students access the Weather Underground
Web site and obtain the weather conditions (tem-
perature and wind speed) for Salt Lake City, Utah
on January 9, 2004.
(In case anyone has trouble accessing this Web
page, the URL is: www.wunderground.com/history/
airport/KSLC/2004/1/9/DailvHistorv.html)
Tell the class to record the weather data for Salt
Lake City for January 9, 2004 on their Student
Worksheet in the chart in Question #6a.
10. Tell students to examine the weather conditions
at Snowbird Ski Area for January 9, 2004, which
are provided in the chart in Question #6b on the
Student Worksheet.
11. Have students compare the weather conditions
(temperature and wind speed) for January 9, 2004
in Salt Lake City to the weather conditions at
Snowbird Ski Area on the same day, and record
their observations in Question #6c of the Student
Worksheet, as it relates to previous class readings
and discussions about temperature inversions.
Discuss students' answers and the correct answer.
AQI Teachers Toolkit
126 Trapping Air Pollution: Temperature Inversions #2
-------�
12. Have students graph the temperatures in Salt Lake
City for January 9, 2004 on the blank graph in
Question #7 as instructed on the Student Work-
sheet.
13. Have students graph the temperatures at Snowbird
for January 9, 2004 on the blank graph in Question
#8 as instructed on the Student worksheet.
Review and discuss students' graphs for Questions
#7 and #8 and the correct graphs (see Teacher An-
swer Sheet).
14. Final lesson discussion. Proceed to either the For
Further Exploration section of this lesson plan to
include additional weather conditions that can
impact air quality, or to the Evaluation section
questions for the final class discussion.
Adaptation
Students could work in small groups rather than
individually.
For a simpler lesson on temperature inversions, see
Trapping Air Pollution: Temperature Inversions /1 (in-
cluded for Grades 3-5) in this Toolkit. If time permits,
the class could first conduct the Temperature Inver-
sion #1 lesson, and in following sessions conduct the
more advanced Trapping Air Pollution: Temperature
Inversions #2 lesson.
For Further Exploration
Expand the discussion to include other weather
conditions in addition to temperature and wind speed
that can contribute to temperature inversions, such as
clear skies, long nights, and high pressure systems.
(Background for this discussion:Clear skies increase
the rate of cooling at the Earth's surface, resulting
in lower temperatures near the ground. Long nights
allow for cooling of the ground to continue over a
longer period of time, resulting in a greater tempera-
ture decrease at the surface. Since the nights are
longer in winter, inversions are stronger and more
common during winter months. In addition, strong
high pressure systems can also increase the likelihood
of temperature inversions because in a high pressure
system the air is stagnant, which keeps the air-and
pollutants in the air-where they are.)
Proceed to the Evaluation questions below for the
final class discussion.
Evaluation
To assess students' grasp of the information in this
lesson, ask and discuss the following:
A. From the graphs for Snowbird ski area that you
created in Worksheet Questions #4 and #8), what
do you observe about the temperatures at the base
and peak of the mountain at Snowbird on the two
days observed (January 1 and January 9, 2004)?
Explain.
Answer/On January 1, the temperature at the peak
of the mountain was cooler than the tempera-
ture at the base of the mountain, which indicates
normal temperature conditions. On January 9,
the temperature at the peak of the mountain was
warmer than the temperature at the base of the
mountain, which indicates a temperature inver-
sion. These conditions confirm the conditions the
class discussed when comparing the Salt Lake
City and Snowbird weather charts: that normal
weather conditions existed on January 1, 2004,
and that a temperature inversion occurred on
January 9, 2004. The temperature inversion on
January 9 helps explain why the AQI (Air Quality
Index) for air quality was "red" or "unhealthy" for
that day, since the cool air and any pollutants in it
were trapped below the layer of warmer air above
it, increasing air pollution. (Note that on January 1,
2004, the air quality was "green," or "good," under
normal temperature conditions when a tempera-
ture inversion did not occur.)
B. What were the differences in wind speed on the
two days? Explain.
Answer/On January 1, 2004, there were strong
winds, both in Salt Lake City and at Snowbird.
These winds encouraged mixing and movement
of air, and moving away of any air pollutants that
might be present. On January 9, 2004, there was
no wind (or only light winds) in both locations. So
the trapped air from the temperature inversion
would remain trapped and stagnant (would not be
blown away by the wind), and any air pollutants
present would remain in the air. This also helps
explain why the AQI for January 1 was "green" or
"good" and why the AQI for January 9 was "red" or
"unhealthy."
C. List and explain some of the conditions that can
contribute to the formation of a temperature
inversion:
AQI Teachers Toolkit
127 Trapping Air Pollution: Temperature Inversions #2
-------�
A layer of warmer air above a layer of cooler air
No or little wind
Mountains nearby
(If For Further Exploration was included in the
lesson, also): clear skies, long nights, high pressure
systems
AoknowlQdgmQnts/RQSOuroQS
Adapted from Air Pollution: What's the Solution?-
Temperature Inversion at: www.k12science.org/cur-
riculum/airproj/pm inversion.html
Noxt GonQration
Standards
Human Impacts
Weather and Climate
Engineering Design
AQI Teachers Toolkit 128 Trapping Air Pollution: Temperature Inversions #2
-------�
Temperature Inversions, Weather,
and Air Quality: Background Information
What is a temperature inversion? Under normal weather conditions, air temperature
is cooler as you go higher up in the atmosphere. This is because the sun's energy is
converted to heat at the ground level, which in turn warms the air closer to the Earth's
surface. The warm air cools as it rises in the atmosphere. When a temperature inver-
sion occurs, the opposite is true: warmer air is above cooler air, and the cooler air is
"trapped" below the warmer air.
How can temperature inversions affect air quality? Air temperature can have an im-
portant effect on air quality. During a temperature inversion, the warm air layer above
the cooler air acts as a lid, trapping not only the cooler air below it, but also any pollut-
ants that might be in the cooler air. Because the pollutants cannot rise and move away,
they may build up, resulting in poor air quality, which may negatively affect people's
health. These pollutants may come from vehicles, fireplaces and wood stoves, and
industries that release pollutants into the air. In some locations, local governments ban
the use of wood stoves and fireplaces under certain weather and pollution conditions.
How can wind and mountains influence temperature inversions and air quality?
When there is no wind or only calm winds, air and any pollutants in it remain stagnant,
which can contribute to maintaining temperature inversion conditions and to air pol-
lution. On the other hand, a strong wind can move pollutants away from an area and
clear the air. In addition, local topographical features, such as nearby mountains, can
increase the formation of temperature inversions, especially in valleys. Cold air sinks to
the valley floor or base of a mountain and becomes trapped there.
What is the Air Quality Index (AQI)? This lesson explores the Air Quality Index (AQI),
which reports air quality levels every day for many locations in the U.S. Different AQI
levels are color-coded and linked to different health concerns.
This lesson examines weather conditions to determine whether a temperature inversion
exists and how weather and temperature inversions affect air quality.
AQI Teachers Toolkit
129 Trapping Air Pollution: Temperature Inversions #2
-------�
Temperature Inversion
Calm winds and the inversion result in poor air quality.
O The winter sun, low in t he sky,
supplies less warmth to the Earth's surface.
ฉ Warmer air aloft acts as a lid
and holds cold air near the ground,
Pollution from wood fires and cars are
trapped by the inversion.
0 Mountains can increase the
strength of valley inversions
Source: U.S. EPA, Office of Air Quality Planning and Standards.
AQI Teachers Toolkit
130 Trapping Air Pollution: Temperature Inversions #2
-------�
fitudont WorkshQQt:
Trapping Air Pollution: TempQraturQ Inversions #2
NamQ:
I. Figure A is a partilcle pollution map for Salt Lake City on January 1, 2004.. What AQI
level was reached?
SALT LAKE CITY
PM2.5
January 1,2004
SALT LAKE CITY
PM2.5
January 9, 2004
Figure A
Figure B
2.
Access the Weather Underground Web site and obtain the following weather condi-
tions for Salt Lake City, Utah on January 1, 2004: minimum and maximum tempera-
tures (in Farenheight) and maximum wind speed.
Access at: Salt Lake City, Utah on January 1, 2004.
(If you have trouble accessing this Web page, the URL is:
www.wunderground.com/historv/airport/KSLC/2004/1/1/DailvHistorv.html ]
2a. Record the weather data in the chart below for Salt Lake City on January 1, 2004.
Max. Actual Temp.
yn CK ME
ILLIR A^ffi iftafi
AQI Teachers Toolkit
131 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
fitudont WorkshQQt: Trapping Air Pollution:
TempQraturQ Inversions #2
NamQ:
2b. Review the weather data in the table below for Snowbird Ski Area for January 1,
2004.
Snowbird Snow Report
New Snow
24 hr
0"
48 hr
0"
38 F
Snow
Depth
Mid-Mtn.
156"
Hi:40F
Lo: 33F
Snow Fall
Year to Date
412"
January 1, 2004
Temperature
Tram
Base
40F
Mid-
Mtn.
32 F
Hidden
Peak
26F
Wind
Hidden
Peak
51 mph
Today's Forecast:
Overcast, unseasonably warm, with
strong winds.
2c. How do the weather conditions (temperatures and wind speed) in Salt Lake City
compare to the conditions at Snowbird on January 1, 2004?
3. Graph the maximum and minimum temperatures for Salt Lake City for January 1,
2004. Draw a line from the maximum to the minimum temperature.
Salt Lake City Temperatures, January 1, 2004
45
40
35
30
25
20
15
10
Maximum Temperature
Minimum Temperature
AQI Teachers Toolkit
132 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
fitudont WorkshQQt: Trapping Air Pollution:
TempQraturQ Inversions #2
NamQ:
4. For Snowbird Ski Area, for January 1, 2004, graph the peak-mountain, mid-
mountain, and base-mountain temperatures. Draw a line to connect these points.
Snowbird Ski Area Temperatures, January 1, 2004
45
40
35
30
25
20
15
10
Base-Mountain Temp. Mid-Mountain Peak-Mountain Temp.
5. Figure B on page 131 is a particle pollution map for Salt Lake City, Utah on January
9, 2004. What AQI level was reached?
AQI Teachers Toolkit
133 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
fitudont WorkshQQt: Trapping Air Pollution:
TempQraturQ Inversions #2
NamQ:
6. Access the Weather Underground Web site and obtain the following weather con-
ditions for Salt Lake City, Utah on January 9, 2004: maximum and minimum tem-
peratures, and wind speed.
Access at: Salt Lake City, Utah on January 9, 2004.
(If you have trouble accessing this Web page, the URL is:
www.wunderground.com/historv/airport/KSLC/2004/1/9/DailvHistorv.htmI ]
6a. Record the weather data below for Salt Lake City on January 9, 2004.
Max. Actual Temp. Min. Actual Temp.
:, Wind fipQQd
6b. Review the weather data in the table below for Snowbird Ski Area for
January 9, 2004.
Snowbird Snow Report
New Snow
24 hr
012"
49 hr
0.3'
17F
Snow Snow Fall
Depth Year to Date
Mid-Mtn. |
158"
Hi: 40F
Lo: 10F
414"
January 9, 2004
Temperature
Tram
Base
20F
Mid-
Mln.
24F
Hidden
Peak
36F
Wind
Hidden
Peak
9imph
Today's Forecast:
Mostly Cloudy, 10% chance of snowh
light to no wind.
6c. How do the weather conditions in Salt Lake City compare to the conditions at
Snowbird on January 9, 2004?
AQI Teachers Toolkit
134 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
fitudont WorkshQQt: Trapping Air Pollution:
TempQraturQ Inversions #2
NamQ:
7. Graph the maximum and minimum temperatures for Salt Lake City for January 9,
2004. Draw a line from the maximum to the minimum temperature.
Salt Lake City Temperatures, January 9, 2004
45
40
35
30
25
20
15
10
0
Maximum Temperature
Minimum Temperature
AQI Teachers Toolkit
135 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
fitudont WorkshQQt: Trapping Air Pollution:
TempQraturQ Inversions #2
NamQ:
8. For Snowbird Ski Area, for January 9, 2004, graph the peak-mountain, mid-moun-
tain, and base-mountain temperatures. Draw a line to connect these points.
Snowbird Ski Area Temperatures, January 9, 2004
45
40
35
30
25
20
15
10
0
ฐF
Base-Mountain Temp. Mid-Mountain Peak-Mountain Temp.
AQI Teachers Toolkit
136 Trapping Air Pollution: Temperature Inversions #2
-------�
Teacher Answer fihQQt:
Trapping Air Pollution: TempQraturQ Inversions #2
What AQI level was reached for particles on January 1, 2004 in Salt Lake City?
Answer: Green, or Good
2a. Record the weather data below for Salt Lake City on January 1, 2004.
[Answers:]
Max. Actual Temp. Min. Actual Temp. Max Wind fipood
42ฐ F
35ฐ F
43mph
2b. Review the weather data in the table below for Snowbird Ski Area for January 1,
2004.
2c. How do the weather conditions (temperature and wind speed) in Salt Lake City
compare to the conditions at Snowbird on January 1, 2004?
Snowbird Snow Report
New Snow
24 hr
0"
48 hr
0"
38 F
Snow
Depth
Mid-Mtn.
156"
Hi:40F
Lo: 33F
Snow Fall
Year to Date
412"
January 1, 2004
Temperature
Tram
Base
40F
Mid-
Mtn.
32 F
Hidden
Peak
26F
Wind
Hidden
Peak
51 mph
Today's Forecast:
Overcast, unseasonably warm, with
strong winds.
r:The temperatures in Salt Lake City were warmer, and the winds were
calmer than at Snowbird. So cooler air and more wind in the mountains were above
warmer and calmer air in the valley/city. These are normal weather conditions.
AQI Teachers Toolkit
137 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
Teacher Answer fihQQt:
Trapping Air Pollution: TemporaturQ Inversions #2
3. Graph the maximum and minimum temperatures for Salt Lake City for January 1,
2004. Draw a line from the maximum to the minimum temperature.
Salt Lake City Temperatures, January 1, 2004 [Completedgraph]:
45
40
35
30
25
20
15
10
5
0
Maximum Temperature
Minimum Temperature
AQI Teachers Toolkit
138 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
Teacher Answer fihQQt:
Trapping Air Pollution: TemporaturQ Inversions #2
4. For Snowbird Ski Area, for January 1, 2004, graph the peak-mountain, mid-moun-
tain, and base-mountain temperatures. Draw a line to connect these points.
Snowbird Ski Area Temperatures, January 1, 2004 [Completedgraph]:
45
40
35
30
25
20
15
10
0
X
Base-Mountain Temp. Mid-Mountain Peak-Mountain Temp.
5. What AQI level was reached for particles on January 9, 2004 in Salt Lake City?
: Red, or Unhealthy
AQI Teachers Toolkit
139 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
Teacher Answer fihQQt:
Trapping Air Pollution: TempQraturQ Inversions #2
6a. Record the weather data below for Salt Lake City on January 9, 2004.
[Answers]:
Max. Actual Temp. Min. Actual Temp. Max Wind fipood
26ฐ F
14ฐ F
8 mph
6b. [Students review the chart below on weather conditions at Snowbird Ski Area for
January9, 2004]
Snowbird Snow Report
New Snow
24 hr
012"
43 hr
0.3"
17F
Snow
Depth
Mid-Mtn.
15S"
Hi: 4QF
Lo: 10F
Snow Fall
Year to Date
41471
January 9, 2004
Temperature
Tram
Base
20F
Mid-
Mln.
24F
Hidden
Peak
36F
Wind
Hidden
Peak
9 mph
Today's Forecast:
Mostly Cloudy, 10% chance of snc-w.
light to no wind.
6c. How do the weather conditions in Salt Lake City compare to the conditions at
Snowbird on January 9, 2004?
r: The maximum temperature on the mountain at Snowbird was warmer than
the maximum temperature in Salt Lake City. So there was warmer air on the moun-
tain than in the valley (city). This reflects the conditions of a temperature inversion,
with warmer air above cooler air. The cooler air, and any pollutants in it, are trapped
below the warmer air. Also, there was no wind (or only little wind) to move the air
and any pollutants in it away from this area.
AQI Teachers Toolkit
140 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
Teacher Answer fihQQt:
Trapping Air Pollution: TemporaturQ Inversions #2
7. Graph the maximum and minimum temperatures for Salt Lake City for January 9,
2004. Draw a line from the maximum to the minimum temperature.
Salt Lake City Temperatures, January 9, 2004 [Completedgraph]:
45
40
35
30
25
20
15
10
5
0
X
ฐF
Maximum Temperature
Minimum Temperature
AQI Teachers Toolkit
141 Trapping Air Pollution: Temperature Inversions #2
-------�
(oontinuod)
Teacher Answer fihQQt:
Trapping Air Pollution: TemporaturQ Inversions #2
8. For Snowbird Ski Area, for January 9, 2004, graph the peak-mountain, mid-moun-
tain, and base-mountain temperatures. Draw a line to connect these points.
Snowbird Ski Area Temperatures, January 9, 2004 [Completedgraph]:
45
40
35
30
25
20
15
10
0
Base-Mountain Temp. Mid-Mountain Peak-Mountain Temp.
9. See lesson plan, Step #14 and Evaluation, for final class discussion.
AQI Teachers Toolkit
142 Trapping Air Pollution: Temperature Inversions #2
-------�
What's "Riding the Wind" in Your Community?
Learning Objectives
Students will:
Identify particle pollution in the air that is carried and deposited by the wind.
Determine the approximate direction from which particle pollution comes.
Consider possible sources of particle pollution in the community and beyond.
Understand the possible health effects of particle pollution.
Learn how to check daily air quality.
Grade Level: Grades 6-8
Estimated Time: 1.5 hours (over 2 to 3 sessions)
Background fiummarg
Ever wonder what's floating in the air? Sometimes
the air contains particle pollution, which is made up
of particles of dust, dirt, smoke, and liquid droplets.
Wind can blow particle pollution in the air from
nearby sources as well as from distant locations. The
movement of wind-blown particles is more horizontal
than vertical. Particle pollution that we can easily see
ranges in size from approximately 20 to 100 microns.
For comparison purposes, a human hair is approxi-
mately 70 microns in diameter. A good collecting sur-
face is a vertical plane. Sticky paper wrapped around
a jar can be used as a sample collector and will work
well to capture the particles. By having students make
and analyze their own sample collector, they will be
able to see particle pollution in the air that may not
generally be visible, learn which direction the par-
ticle pollution comes from, and determine what the
sources of the particle pollution might be.
Matorials Needed
Small glass or plastic jar with a lid (several jars
that fit the same lid will allow for the collection of
several samples)
Plywood base (approximately 24" x 24")
Wooden dowel (approximately 3" diameter, 30"
long)
2 Wood screws
Compass
Spray can of quick drying clear lacquer
Double sided tape, or contact paper
Blank directional graphic (included)
Sample Data Table and Graph (included)
Kog Questions
Do you think you can always see air pollution?
(Answer: No, sometimes particles are too small to
see.)
What do you think some sources of air pollution
might be in your community? (Possible answers:
Factory smokestacks, car/vehicle emissions, power
plants, dust from construction sites, fireplaces and
wood stoves, smoke from forest fires)
Do you think air pollution can reach your com-
munity from far away? How? From what sources?
(Possible answers:Yes. The most likely sources of
this pollution might be power plants and factories.)
Do you think the weather can affect air pollution
levels? (Answer:Yes. Wind can blow air pollution
from long distances away into a community. Also
particle pollution is often greater in the winter
time, and particularly when there is a temperature
inversion.)
f>
Jar
7 ซ Wood Screw
jar Top -**>
Wooden Dowel
ctnn
Plywood Base
AQI Toolkit For Teachers
143 What's "Riding the Wind" in Your Community?
-------�
Do you think there are health effects associated
with particle pollution? What health effects? (An-
swer: Yes. Particle pollution can cause breathing dif-
ficulties and aggravate heart disease or lung disease
(including asthma). For people with heart disease,
particle pollution has been linked to heart attacks.)
Vocabulary
Particle pollution-Tiny particles of dust, dirt, smoke,
and iquid droplets in the air.
Temperature inversion-When cold air in the
atmosphere (and any air pollution in it) is trapped
under warmer air above it; this is a reversal of normal
conditions, in which temperature decreases as you go
higher in the atmosphere.
1. Assemble the sample collector stand as indicated
in the picture above under "Materials Needed."
2. Place the stand for holding the glass jar on a flat
and safe area of the school grounds or roof. Try to
keep the sampler as far away from obstructions as
possible.
3. Wrap one strip of double-sided tape around the
jar. If using contact paper be sure that the sticky
side is facing away from the jar. Fasten one edge
to the jar with tape and be sure that the edges
overlap and stick together so that the paper will
stay on the jar. Mark the exposed edge as North.
4. Screw the jar onto the cap on the stand and use a
compass to be sure that the edge marked "North"
is facing North.
5. Leave the jar exposed for seven days. Then spray
the paper with the lacquer to fix the particles
collected and to avoid having additional particles
adhere to the paper.
6. After the lacquer dries, remove the tape or contact
paper from the sampler and divide it into eight
equal parts. One section of the strip will represent
each direction, i.e., North, Northwest, West, South-
west, South, Southeast, East, Northeast. Label each
section.
7. Lay the tape on a flat surface and estimate the
percent of particle coverage for each section.
Use the table below to record the class's estimates.
8. Hand out copies of the Sample Data Table and
Graphic and review it with the class. Then dis-
tribute the Blank Directional Graphic for Enter-
ing Data (included) and have the students, either
individually or in groups, draw in the data from
the table. For this lesson, assume that 2 cm = 10%
coverage. The sample site will be at the center of
the graph. Tell students to use the Sample Data
Table and Graphic as an example of how to enter
and interpret their data on the blank graphic.
9. When students have completed their directional
graphics, they should be able to look at them and
start to form simplified ideas regarding what gen-
eral direction particle pollution, and possibly other
pollutants that affect your community, come from.
10. After finishing the graphs, discuss with the class:
From what direction did most of the particle pollu-
tion appear to come?
Knowing your community, what do you think
some of the sources of the particle pollution might
be? (Possible answers: Nearby dirt driveways,
vehicle exhaust, factory emissions, power plants,
dust from construction sites, fireplaces and wood
stoves, smoke from fires.) Mention that the wind
may also have blown the particle pollution from
far away to your area from some of these types of
pollution sources.
How do you think that weather might affect
particle pollution? (Answer:Particle pollution can
occur at any time of year, but it can be especially
bad during winter, when the weather is calm, and
especially when a temperature inversion exists,
allowing particle pollution to build up. A tempera-
ture inversion occurs when cold air, and any air
pollution in it, is trapped under warmer air above
it; this is a reversal of normal conditions, in which
temperature decreases as you go higher in the
atmosphere.)
Do you think particle pollution can affect our
health? How? (/Answer:Yes. Particle pollution,
especially smaller particles, can penetrate deep
into the lungs and even get into our bloodstream.
Particle pollution can cause a range of health
effects, from coughing to aggravated asthma
and heart disease. For people with heart disease,
AQI Toolkit For Teachers
144 What's "Riding the Wind" in Your Community?
-------�
particle pollution has been linked to heart attacks.
Many studies link high particle pollution with
increased emergency room visits and hospital
admissions. People that are particularly sensitive
to particle pollution include people with heart or
lung disease, older adults, and children.)
How might we and our community reduce air
pollution? (Possible answers: People could drive
less and walk, bicycle, or take public transporta-
tion (e.g., buses, trains, subways) more often. They
could carpool more. People could use wood stoves
and fireplaces less often. We can turn off lights,
TVs, computers, and other equipment when we're
not using them. Factories and power plants could
use cleaner fuels and other substances that pro-
duce less air pollution.)
Do you think there are ways to check what the
air quality is? (Answer: Yes. You can check the
air quality each day and for the next day on the
Internet at: www.airnow.gov which provides an Air
Quality Index, or AQI. The AQI is also often part of
the weather report in newspapers and on TV and
the radio. The AQI provides information on five air
pollutants, including particle pollution.)
Adaptation
For lower grades, see the How Dirty is the Air We
Breathe? lesson plan in this Toolkit for Grades K-2 on
preparing a simpler air pollution tester.
For Further Exploration
See the Trapping Air Pollution: Temperature Inversions
#1, Trapping Air Pollution: Temperature Inversions #2,
and Save Smog City 2 from Particle Pollution lesson
plans in this Toolkit.
AoknowlQdgmQnts/RQSOuroQS
U.S. EPA and the Air and Waste Management Associa-
tion. Adapted from the Air Pollution Control Associa-
tion, Air Pollution Experiments for Junior and Senior
High School Science Classes. Pittsburgh, PA.
Noxt GonQration
Standards
Human Impacts
Engineering Design
AQI Toolkit For Teachers
145 What's "Riding the Wind" in Your Community?
-------�
What's "Riding the Wind" in Your Community?
Sample Data Table and Graphic
Direction | N NW W 2W 2 2E E ME
Estimated
Coverage
250/0
10o/o
50/0
150/0
250/o
100/0
50/0
50/0
For example we estimate the strip above is covered as indicated in the table below.
Start with the estimated particle coverage that came from the north, 25%. Since 1 cm on the graph represents
10% coverage, a 5 cm line will represent 25%. Draw a bar north extending 5 cm from the center of your direc-
tional graphic. A 2 cm bar should extend towards the northwest, and so on.
Sample
Site
AQI Toolkit For Teachers
146 What's "Riding the Wind" in Your Community?
-------�
What's "Riding the Wind" in Your Community?
Blank Directional Graphic for Entoring Data
N
Sample
Site
Data Collection Site _
Data Collection Dates
AQI Toolkit For Teachers
147 What's "Riding the Wind" in Your Community?
-------�
-------�
fiave fimog City 2 from OZOFIQ
Learning ObJQotivQS
Students will:
Understand how weather and people's activities affect air pollution.
Explore how changes in key variables can affect air pollution and health.
Identify things people can do to reduce air pollution.
Grado LQVQ!: Grades 6-8
EstimatQd Timo: 1 hour
Background fiummarg
Ozone is made up of three oxygen atoms. Ozone in
the air acts differently depending on where it is. The
ozone layer high up in the atmosphere occurs natu-
rally and helps protect us from receiving too much
of the sun's harmful ultraviolet radiation. But when
ozone is near the Earth's surface (at ground level), it
is an air pollutant that can harm our health and our
environment. You can remember this difference by
thinking, "Good up high, bad nearby." Ground-level
ozone pollution can irritate the throat and lungs,
cause coughing, and make asthma worse.
Ground-level ozone forms when certain pollutants
in the air are baked by the sun and undergo chemi-
cal reactions. These pollutants are volatile organic
compounds (VOCs) and nitrogen oxides (NOJ. VOCs
are emitted from gasoline, industrial chemicals, paints,
household cleaners, and other products. N0x is pro-
duced from burning certain fuels such as gasoline.
Many things can affect how much ground-level ozone
pollution there is, including the weather, emissions
released from cars and factories, and the popula-
tion in a specific area. Ozone pollution is worse in
the summer when there are high temperatures, calm
winds, and lots of sunshine.
Make sure the class understands what emissions are,
since this is an important concept of this lesson and
the Smog City 2 Web site on which this lesson is
based. Ask the class if they know what emissions are.
Based on their responses, guide the class to under-
stand that emissions are releases of pollutants, or
other substances that can become pollutants, from
vehicles, factories, power plants that make electricity,
and even some products that we use at home, such as
paints.
Tdl the class that the Air Quality Index, orAQI, in-
dicates how clean or polluted the air is in a specific
location each day. Ozone is one of five major air
pollutants that the AQI covers, and is one of the most
common air pollutants in the U.S. The AQI has six
levels for air quality: Good (green), Moderate (yellow),
Unhealthy for Sensitive Groups (orange), Unhealthy
(red), Very Unhealthy (Purple), and Hazardous (Ma-
roon). Tell students that you will discuss the AQI more
as the lesson continues.
Ozone is part of "smog"-a term that originally meant
a combination of smoke and fog. These days, smog
refers to a combination of particles, ozone, and other
chemicals in the air. Tell students that they will be
playing an online computer game called Smog City
2 about ozone that lets them change things like the
weather, emissions from cars and power plants, and
population to see how these changes affect ozone
pollution.
Materials Needed
Internet access
Teacher Answer Sheet (included)
Student Worksheet (included)
Keg Questions
What is smog? (Answer: Smog originally was a
combination of smoke and fog. These days, smog
refers to a combination of particles, ozone, and
other chemicals in the air.)
Is ozone good or bad? (Answer: Both. Good ozone
is ozone up high in the atmosphere, where it helps
protect us from too much of the sun's ultraviolet
radiation, which can be harmful to our health. Bad
AQI Teachers Toolkit
149
Save fimog City 2 from Ozone
-------�
ozone is at ground-level, and is a pollutant that
can cause breathing problems and lung irritation.)
Can people's activities affect air pollution? How?
(Answer:Yes. Vehicle emissions contribute to
ozone pollution, as do power plant and factory
emissions, and some household products, like
paints.)
Can the weather affect air pollution? How?
(Answer:Yes. Ozone pollution is worse in hotter
weather, when there is lots of sunlight and calm
winds.)
What can people do to protect their health from
air pollution? (Answer:Take it easier outside when
air is polluted. Tell an adult if it feels more difficult
to breath.)
What can people do to reduce air pollution?
(PossibleAnswers: Drive less; take buses, trains,
and subways instead of driving; share a ride with
friends; walk and bicycle instead of driving; drive
cars that make less emissions; use ATVs less or use
bicycles instead.)
Vocabulary
Emissions-Substances discharged into the air. Releases
of pollutants from a variety of sources and activities,
including vehicles, factories, power plants that make
electricity, and wood-burning stoves and fireplaces,
among others.
Ozone-A gas that occurs both in the Earth's upper
atmosphere and at ground level. Ozone can be "good"
or "bad" for people's health and the environment,
depending on its location in the atmosphere. High up
in the atmosphere, ozone helps protect people from
too much ultraviolet radiation from the sun. Near
the Earth's surface, ozone is an air pollutant that can
result in breathing difficulties.
Air Quality Index (AQI)-A color-coded scale that
provides daily air quality and health information.
1. Tell students to access the Smog City 2 Web site
at www.smogcity2.org and click on "Save Smog
City 2 from Ozone." Then have the class minimize
the instructions box at the top right corner of the
screen (this lesson covers some of the information
in the box). Also, have students ignore the "In-
formation" box at the bottom of the screen; they
will be exploring several of these concepts in this
lesson.
2. Tell the class not to click on anything until you
tell them to (it's tempting!). Point out the main
categories on the left of the screen with the class,
including Weather, Emissions, and Population (you
will be discussing these throughout the lesson).
Also tell them to notice how each of the settings
under these categories are pre-set to a certain
level. Tell them that they will explore what hap-
pens when some of these settings are changed.
Mention to students that the "Total Emissions"
graph towards the bottom of the page reflects
all the Emissions categories at the levels you
set when you play the game (including energy
sources, cars and trucks, off road vehicles, con-
sumer products, and industry).
(If students ask, tell them that the "Random
Events" box is for learning about a different pol-
lutant, called particle pollution, which you may
cover in other lessons. Note:Several lessons in this
Toolkit cover particle pollution.)
3. Tell the class they are first going to explore how
weather conditions can affect ground-level ozone
pollution and health. Tell students that in the real
world we can't control the weather, but in Smog
City 2 you can experiment with how the weather
affects pollution levels by adjusting the controls.
4. Tell students to look at the black sign in the main
picture to find out what the current temperature
and AQI are. Remind students that the AQI tells
how much air pollution there is. Tell them to ob-
serve the AQI (Air Quality Index) box in the lower
right corner of the screen. The default setting is
"Red" (see the top of this box, "Ground Level AQI"
and the color itself at the bottom) and the cor-
responding health level is "Unhealthy" (see just
below the colored graph where it says "Health.")
Under this health level is a corresponding health
message.
Review the health message in the box for a Red,
Unhealthy AQI with the class: "Active children
and adults, and people with lung disease, such as
asthma, should avoid prolonged or heavy exertion
outdoors. Everyone else, especially children, should
reduce prolonged or heavy exertion outdoors."
5. Tell students to record the current temperature
and AQI on Question #1 of their Student Work-
sheet.
AQI Teachers Toolkit
150
Save fimog City 2 from Ozone
-------�
6. Tell students to now increase the temperature to
110ฐ F by moving the "Temperature" button as far
to the right as it will go.
/Vote:Tell students that settings can be changed by
clicking on the new level they want. Remind them
to wait until you tell them to change any of the
settings.
7. Tell students to again check the black sign in the
picture. Ask them if the temperature and the AQI
changed. Ask students why they think this change
in the AQI happened. Tell them to record this
information in Question #2 of the Student Work-
sheet. Discuss the answers with the class.
(Correct answer: The AQI increased from 175 to
202. Ground-level ozone increased because ozone
levels are generally higher when temperatures are
high.)
8. Have students click the "Reset" button on the bot-
tom left of the screen so that everything returns
to the original settings.
9. Tell students to observe the current "Clouds/Sky
Cover" button setting (farthest to the left - the
lowest setting), the main cityscape picture at this
setting, and the AQI at this setting, and record
these conditions in Question #3 on their Student
Worksheet.
10. Tell students to move (increase) the "Clouds/Sky
Cover" button to the far right setting (the highest
setting), and to record the new "Clouds/Sky Cover"
condition and the AQI on their worksheets, again
in Question #3. Ask students whether changing
the cloud conditions changed the AQI level, and to
add why they think this happened to their Ques-
tion #3 answers. Discuss the answers with the
class.
(Answer/The original Clouds/Sky Cover conditions
at the lowest level were sunny-there was only one
passing cloud in the sky in the picture-and the
AQI was 175, Red, Unhealthy. When the Clouds/
Sky Cover conditions were changed to the highest
level, there were more clouds in the sky, and the
AQI decreased to 119 and changed from Unhealthy
to Unhealthy for Sensitive Groups. [Tell students
that they will explore what "Unhealthy for Sensi-
tive Groups" means later in the lesson.] Air pollu-
tion, and the AQI, decreased because ozone levels
are highest when there is lots of sunshine, and
adding clouds reduced the amount of sunshine,
which reduced ozone formation.)
11. Have the class press the "Reset" button on the
lower left side so that everything returns to the
original settings.
12. Now explore changes in Emissions with the class.
Tell students to observe the current emissions level
for "Cars and Trucks" and record the current AQI
on Question #4 of their Student Worksheet.
13. Tell students that the mayor of Smog City 2 has
just purchased a whole new fleet of low-emission
vehicles to replace all cars used by city govern-
ment employees. So, the class needs to decrease
the emissions level from Cars and Trucks to the
second to lowest setting (from the current setting,
which is the second to highest level) to reflect
this change. Tell students to record the AQI level
in Question #4 on their Student Worksheet, and
if the AQI changed, why they think this occurred.
Discuss the answers with the class.
14. Have the class press the "Reset" button on the
lower left side so that everything returns to the
original settings.
15. Tell students that a new, really awesome ATV (all-
terrain vehicle) is now available in Smog City 2,
and that lots of kids and their families are buying
them. Under the Emissions category, have students
increase emissions from "Off Road" vehicles to the
highest setting (all the way to the right) and tell
them to record what happens to the AQI in Ques-
tion #5 of their Student Worksheet. Tell them to
compare this AQI number to the Emissions number
in Question #4, and if the AQI changed, why they
think this happened. Discuss the answers with the
class.
16. Have students press the "Reset" button.
17. Tell students that in Smog City 2, you can increase
the population from near-zero to as high as about
2 million people. Tell students to observe the AQI
under the current "Population" setting and record
this information in Question #6 on their Student
Worksheet.
18. Now tell students to change the "Population" con-
trol to the highest setting (farthest to the right).
Ask students what happens to the AQI, and why
they think this happened. Have students record
this information in Question #6.
After hearing some of the responses to Ques-
tion #6, discuss with students that as population
increases in an area, emissions and air pollution
AQI Teachers Toolkit
151
Save fimog City 2 from Ozone
-------�
usually also increase from the use of more energy,
cars, consumer products, and industries.
19. Tell students that ozone can irritate the throat and
lungs, cause coughing, and make asthma worse.
Tell students to look at the top of the column on
the left of the Save Smog City 2 from Ozone page
and click on "Air Quality Index (AQI)" (the second
heading).
(Note: If the class is also studying particle pol-
lution, you can mention that some of the health
symptoms of ozone and particle pollution are
similar, such as irritation of the throat, coughing,
and aggravating asthma, but some health symp-
toms are different. For example, particle pollution
can make heart disease worse.)
Look at the color chart at the bottom of the AQI
page with the class and review each different
color's health message so that students under-
stand how changes in air pollution, as reflected by
changes in the AQI, can affect people's health.
20. Ask students what steps they think they or other
people could take to reduce emissions and ozone
pollution, and to record their answers in Ques-
tion #7 on their Student Worksheet. Discuss the
answers, as indicated below.
(Correct answers might include: Drive less; take
buses, trains, and subways instead of driving;
walk and bicycle instead of driving; drive cars
that produce less emissions; use ATVs less or use
bicycles instead; use lawnmowers that don't use
gasoline or electricity. Also, power plants could use
wind power, solar power, or hydroelectric power
instead of coal, oil, or natural gas. Factories can
use cleaner technologies that produce fewer emis-
sions. Companies can make and sell fuels for cars
from waste products instead of gasoline.)
For Further Exploration
Change some of the other settings in Save Smog City
2 from Ozone, such as Wind, Consumer Products, and
Industry, and discuss with the class how these chang-
es can affect ozone pollution, the AQI, and health.
Conduct some of the activities on particle pollution in
Save Smog City 2 from Particle Pollution.
Explore the "Create Your Own Smog City 2 Experience"
on the Smog City 2 Web site (best to do this after you
have introduced particle pollution to students).
AeknowlQdgmQnts/RQSOuroQS
Sacramento Regional Air Quality Management District
and U.S. EPA.
Smog City 2 at: www.smogcity2.org.
Noxt GonQration
Standards
Human Impacts
Engineering Design
AQI Teachers Toolkit
152
Save fimog City 2 from Ozone
-------�
fitudent WorkshQQt: fiave fimog City 2 from OZOFIQ
NamQ:
Record the current temperature and AQI in "Save Smog City 2 from Ozone":
Current temperature:
Current AQI:
Number
Color
Health LQVQ!
2. Record the AQI when the temperature is changed to 110ฐ F:
Number Color Health LQVQ!
If the AQI changed when you increased the temperature, why do you think
this occurred?
3. Record the current "Clouds/Sky Cover" conditions and the current AQI.
Current Clouds/Sky Cover:
Current AQI:
Number
Color
Health Level
AQI Teachers Toolkit
153
Save fimog City 2 from Ozone
-------�
(oontinuQd)
fitudont WorkshQQt: fiavQ fimog City 2 from OZOFIQ
Name:
After you've changed the settings, record the new cloud conditions and the
AQI under the new cloud conditions.
Clouds/Sky Cover when changed to highest level:
AQI when changed Clouds/Sky Cover to highest level:
umbQr
Color
Hoalth LQVQ!
If the AQI changed when you changed the Clouds/Sky Cover to the highest level, why
do you think this change occurred?
4. Record the AQI associated with the current Emissions level for Cars and Trucks:
Number
Color
Health LQVQ!
Now record the AQI when the Emissions level for Cars and Trucks was changed to
reflect government use of low-emission vehicles (to second to lowest setting):
Number Color Health LQVQ!
AQI Teachers Toolkit
154
Save fimog City 2 from Ozone
-------�
(oontinuQd)
fitudont WorkshQQt: fiavQ fimog City 2 from OZOFIQ
Name:
If the AQI changed when you changed the Emissions level for Cars and Trucks, why
do you think this occurred?
5. Record the AQI when new ATVs are bought and used (increase Off Road vehicles
to highest level-far right). Compare this number to the Emissions numbers in
Question #4.
NumbQr
Color
Joalth LQVQI
If the AQI changed when you changed the Emissions level for Off Road vehicles, why
do you think this occurred?
6. Observe and record the AQI level at the current Population setting.
Current AQI:
NumbQr Color Health LQVQ!
AQI Teachers Toolkit
155
Save fimog City 2 from Ozone
-------�
(oontinuQd)
fitudont WorkshQQt: fiavQ fimog City 2 from OZOFIQ
Name:
Then record the AQI when the Population level is changed to the highest setting.
AQI at highest Population level:
NumDQr Color
Hoalth LQVQ!
If the AQI changed when the population increased, why do you think this occurred?
7. What steps do you think you or other people could take to reduce emissions and
ozone pollution?
AQI Teachers Toolkit
156
Save fimog City 2 from Ozone
-------�
Teacher Answer fihQQt: fiavQ fimog City 2 from OZOFIQ
1. Record the current temperature and AQI in "Save Smog City 2 from Ozone":
Current temperature: 90ฐ F
Current AQI:
Number
175
Color
Red
Hoalth LQVQ!
UnhQalthg
2. Record the AQI when the temperature is changed to 110ฐ F:
Number Color Health LQVQ!
202
Red
Unhoalthg
Ask: If the AQI changed when you increased the temperature, why do you think this
occurred?
r: Ground- level ozone increased because ozone levels are generally higher
when temperatures are higher.
3. Record the current "Clouds/Sky Cover" conditions and the current AQI.
Current Clouds/Sky Cover: One cloud passing by
Current AQI:
Number Color Health LQVQ!
175
Red
UnhQalthg
After you've changed the settings, record the new cloud conditions and the AQI un-
der the new cloud conditions.
Clouds/Sky Cover when changed to highest level: More clouds
AQI when changed Clouds/Sky Cover to highest level:
NumbQr Color Health LQVQ!
119
OrangQ
UnhQalthg
for fionsitivQ
Groups
AQI Teachers Toolkit
157
Save fimog City 2 from Ozone
-------�
(oontinuQd)
Teacher Answer fihQQt: fiavQ fimog City 2 from OZORQ
If the AQI changed when you changed the Clouds/Sky Cover to the highest level, why
do you think this change occurred?
Answerer pollution, and the AQI, decreased because ozone levels are highest when
there is lots of sunshine, and adding clouds reduced the amount of sunshine, which
reduced ozone formation.
4. Record the AQI associated with the current Emissions level for Cars and Trucks:
Number Color Health LQVQ!
175
Red
Unhealthy
Now record the AQI when the Emissions level for Cars and Trucks was changed to
reflect government use of low-emission cars (second to lowest setting):
Number Color Health LQVQ!
119
OrangQ
Unhealthy
for fionsitivQ
Groups
If the AQI changed when you changed the Emission level for Cars and Trucks, why do
you think this occurred?
r: The AQI decreased from 175, Red, Unhealthy, to 119, Orange, Unhealthy for
Sensitive Groups, because the lower emission vehicles released fewer N0x and VOCs
emissions, which decreased the formation of ozone pollution.
5. Record the AQI when new ATVs are bought and used (increase Off Road vehicles
to highest level, far right). Compare this number to the Emissions numbers in
Question #4.
NumbQr
190
Color
Red
Health LQVQ.
Unhealthy
If the AQI changed when you changed the Emissions level for Off Road vehicles,
compared to when you changed the Emissions level for Cars and Trucks for lower
emission vehicles in Question #4, why do you think this occurred?
AQI Teachers Toolkit
158
Save fimog City 2 from Ozone
-------�
(oontinuQd)
Teacher Answer fiheet: fiave fimog City 2 from Ozone
r: The AQI increased from 119, Orange, Unhealthy for Sensitive Groups in
Question #4 (for lower emission vehicles) to 190, Red, Unhealthy, when the Emis-
sions level for Off Road vehicles was increased for more ATV use. This occurred
because the use of additional ATVs increased vehicle emissions, which contributed to
increased ozone formation.
6. Observe and record the AQI level at the current Population setting.
Current AQI:
Number
175
Color
Red
Health LQVQ!
Unhealthy
Then record the AQI when the population level is changed to the highest setting.
AQI at highest Population level:
Number Color Health Level
215
Purple
Very
Unhealthy
If the AQI changed when the population increased, why do you think this occurred?
Answer:As population increases in an area, emissions usually also increase from the
use of more energy, cars, consumer products, and industries.
7. What steps do you think you or other people could take to reduce emissions and
ozone pollution?
Answers: Drive less; take buses, trains, and subways instead of driving; walk and
bicycle instead of driving; drive cars that make less emissions, such as hybrid vehicles
and others that use less gasoline; use lawnmowers that don't use gasoline or elec-
tricity. Also, power plants could use wind power, solar power, or hydroelectric power
instead of coal, oil, or natural gas. And, factories can use cleaner technologies that
produce fewer emissions.
AQI Teachers Toolkit
159
Save fimog City 2 from Ozone
-------�
-------�
fitudont Handout
161
-------�
-------�
Breathe Smart!
FourThings
Can Do
Find out what AQI color for today is where you live.
Visit the AIRNow Web site at www.airnow.gov.
Tell your parents about the AQI so they can help you.
Protect your health when the air is dirty.
Take it easier when you play outside.
If it feels harder to breathe, tell an adult.
Help reduce pollution.
Turn off lights, TVs, and computers
when not using them.
Walk, bike, or take a bus or train with
an adult. But remember, your safety
always comes first!
Visit the AQI kids' site at www.airnow.gov
(click on "Kids" in the "Learning Center")
-------�
Additional Activities
Good
Moderate
Unhealthy for Sensitive Groups
Unhealthy
Very Unhealthy
-------�
-------�
Additional Activities
Introduction
Teachers can use these additional activities as supplements to the lesson plans in this tool-
kit, or as brief introductions to air quality issues if time is limited. Prior to conducting these
activities, teachers may want to review the fact sheets, handouts, and Background Summary
sections in applicable lesson plans for relevant information to share with students.
Grades K-2
Why Is Coco Orange?
Read "Why is Coco Orange?" to your students. This picture book introduces the AQI
colors to children in grades K-2, teaches them what the different colors mean, how to
recognize health symptoms and what actions to take when air quality is bad (www.airnow.
gov/picturebook).
Check your local AQI forecast at www.airnow.gov. Make copies of the "coloring page" and
have your students color the chameleons to match today's AQI color, (www.airnow.gov/
picturebook).
Have your students complete the activity sheets at www.airnow.gov/schoolflag.
Additional Activities
167
AQI Toolkit for Teaohors
-------�
Match Game
Access the "clean air/dirty air" matching cards from "Connecting Activity #2 - Clean Up on
Gloomy-Doomy" (see the last two pages) at:
www.intheair.org/modules/K-3-ConnectingActivity2.pdf
Make copies of the matched sets and cut the cards apart, providing enough cards so that
each student will have one card of a pair. Place the cards in a bag or box, half of them
"dirty" and half "clean" air cards. Have students pick one card out of the box or bag. Ask
students whether they think they have a card with a picture of what makes the air dirty
or what keeps it clean. Have those with the "dirty air" cards move to one side of the room,
and those with "clean air" cards move to the other side of the room. Check the accuracy of
students' choices.
Explain that the purpose of the game is to match clean air cards with dirty air cards to
show how dirty air can be made cleaner. Have students look at their cards to decide what
kind of match they will be looking for. Then have the two groups mingle and make the
matches. When two students believe they have a match, they come to the teacher to see if
they are correct. If so, they sit down together; if not, they go back into the group and try
again.
When all the matches have been made correctly, each pair describes to the class what is
on their and their partners' cards and how the two pictures connect in keeping the air
clean. The teacher helps students with the answers as needed, for example: a fly swatter
and a can of insect spray are a match because a fly swatter can kill a fly without putting
something harmful in the air that will make it dirty, or polluted, like insect spray will; a
bicycle and a car are a match because a bicycle gets you places without polluting the air,
while a car gets you places by burning gas that puts pollution into the air.
(Source: Missouri Botanical Garden's Earthways Center and the U.S. EPA, In the Air curriculum, K-3 Education
Module)
Additional Activities
168
AQI Toolkit for Teaohors
-------�
Visible and Invisible Air Pollution
Gather together needed materials: yellow and blue powdered drink mixes, squeezable
bottles, and several large sheets of scrap paper (newspaper is fine) for the demonstra-
tion or for each group. Either the teacher can demonstrate the experiment to the class, or
divide the class into groups of approximately six students each.
Fill one squeezable bottle with yellow drink mix and water. Fill the other bottle with blue
drink mix and water. Put large sheets of paper on the floor or table where the students will
be making "pollution." Position the papers at a full arm's length extended from the body.
Tell students that we all need clean air to breathe and keep us healthy. But sometimes
the air gets dirty, or polluted. Tell them that some air pollution can be seen, but other air
pollution is invisible. Tell students that the squeezable bottles are like smokestacks from
factories, which sometimes release pollution into the air. The different colors in the bottles
are like air pollution coming out of the smokestacks. The blue color is like air pollution that
you can see. The yellow color is like invisible air pollution.
Let students take turns shaking the closed bottle of the yellow mix and water. Then open
the spout and tell the students with the bottles to extend their arms away from their
bodies and over the paper. Help them squirt the bottle hard straight into the air above the
paper. Repeat the activity with the second squeezable bottle filled with the blue mix and
water.
Ask students which color was easier to see (Answer: blue). Tell students that the blue color,
which was easy to see, is like air pollution you can see. The yellow, which was harder to
see, is like some pollution that is invisible or not very easy to see. Both kinds of pollution
exist in our air. Both visible and invisible pollution can affect people, like making it harder
to breathe.
(Source: Indiana Department of Environmental Management, Activities, Lesson Plans, and Coloring Books,
Environmental Education Plans, Air Quality, Clearing the Air lesson, Activity #2,
www.in.gov/idem)
Additional Activities
169
AQI Toolkit for Teaohors
-------�
Milkweed Polka Dots
In this Internet activity, students learn that plants can be damaged by air pollution
(ground-level ozone pollution, in particular). Students examine photos of milkweed
leaves, which typically display black dots on their top leaf surfaces when stressed by high
amounts of ground-level ozone. Students compare ozone damage to other types of dam-
age.
Introduce students to both milkweeds and monarch butterflies on the following Web
page: http://dnr.wi.gov/org/caer/ce/eek/veg/plants/milkweed.htm.
(Since the URLs for this Web page and the next one are long, you may want to first save
them to your "Favorites" list for easy access.) Let students know that monarch butterflies
lay their eggs on milkweed plants and that monarch caterpillars eat the leaves. If you are
able to find one, show students a healthy milkweed leaf.
Go to the following Internet Web page to view milkweed damage from ozone pollution:
http://dnr.wi.gov/org/caer/ce/eek/teacher/milkweed.htm. Have students study the photo of
the ozone-damaged leaf. Discuss the symptoms of milkweed damage from ozone pollu-
tion with students: small black dots on the top (not bottom) of the leaves; damage to the
leaf, not the veins; damage that won't rub off or wash off. On this same Web page, click
on "See the list of slides." Either have students pick a few of these slides to compare with
the ozone-damaged leaf photo, or allow them to view the entire slide show. Share with
students the information provided on some slides regarding how the damage shown dif-
fers from ozone damage to milkweed leaves.
(Source: EEK! Teachers Pages - Milkweed Monitoring Project, http://dnr.wi.gov/org/caer/CC/eek/teacher/
milkweed.htm)
More Activity Ideas
Make a clean air kite.
Draw a picture of your favorite clean air environment (e.g., a park, forest, lake).
Additional Activities
170
AQI Toolkit for Teaohors
-------�
Grades 3-5
Lung Capacity
In this activity, the teacher demonstrates "lung capacity" to the class-the amount of air
that you can hold in your lungs. Tell students that doctors and nurses sometimes measure
lung capacity to see how well a person's lungs are working. Also tell students that air pol-
lution can reduce a person's lung capacity. A person with reduced lung capacity breathes
less air into his or her lungs. Reduced lung capacity can contribute to heart and lung
diseases. Access this experiment at: www.tryscience.org/experiments/experiments_begin.
html?lung.
(Source:Tryscience, IBM Corporation, New York Hall of Science, and the Association of Science-Technology Cen-
ters, Experiments, Lung Capacity)
Tomorrow's Air Quality Index (AQI)
As homework, tell students to find your local Air Quality Index (AQI) forecast for the next
day and report it to class tomorrow. Tell students to try to find the AQI forecast for tomor-
row in local newspapers, which is often on the weather report page, and cut it out. Or,
they can try to find the AQI on the Internet at www.airnow.gov, print it out, and bring it to
class. If they hear the AQI forecast for tomorrow on the radio or TV, they can report what
they heard to the class. The teacher should bring in his or her own AQI information to
verify students' responses. In class the next day, discuss students' results and the AQI (e.g.,
colors, meanings, health effects, what students can do to protect their health on days with
poor air quality).
Additional Activities
171
AQI Toolkit for Teaohors
-------�
Air Quality Crossword Puzzle
Directions
Fill in the crossword puzzle with your answers to the questions below.
/Across
1A. What we call the air when it is dirty from things like dust, soot, or chemicals.
2A. In addition to power plants and factories, these moving things that take us places can pol-
lute the air.
on a day when the air is polluted.
3A. Tell an adult if you find it harder to
4A. Forest can pollute the air.
5A. The name of the Web site where the AQI can be found.
6A. We need to breathe to live.
7A. The AQI color that means the air quality is "good."
Down
1D. "AQI" is an acronym for the Air Index.
2D. You might hear about the AQI on the TV, or see it in the newspaper, as part of the weather
3D. You might want to do this instead of run on days when the air is polluted.
4D. If possible, find out what the AQI is for today and tomorrow.
5D. Air pollution can make this breathing problem worse.
GD.Take it when you're outside when the air is polluted.
7D. We breathe faster and more deeply when we're than when we're resting.
8D. Most of the time, when the air is not polluted, it is .
Additional Activities
172
AQI Toolkit for Teaohors
-------�
Air Quality Crossword Puzzle
1A
3D
5A
3A
2A
ID
4A 2D
4D
5D
7A
6D
6A 7D
8D
Additional Activities
173
AQI Toolkit for Teaohors
-------�
Answers to Air Quality Crossword Puzzle
1A
P
o
L
L
2A
c
u
3D
w
5A
A
L
K
ID
Q
U
A
L
1
T
Y
1
3A
B
R
E
R
N
4A 2D
F
O
R
E
C
A
S
T
D
1
4D
C
o
L
O
R
W
E
S
E
5D
A
S
T
H
M
A
T
H
7A
G
6D
E
A
S
1
E
R
E
6A 7D
A
C
T
1
V
E
1
N
8D
C
L
E
A
R
Additional Activities
174
AQI Toolkit for Teaohors
-------�
What's Your A.Q.I.Q.? (Air Quality
Intelligence Quotient): True or False
Student Worksheet:
Circle "true" or "false" as the correct answers for the statements below.
1. Air pollution is only a problem in big cities. True False
2. Dirty air is costly to every American. True False
3. When the air is polluted, you can always see and smell it. True False
4. Clean air is the responsibility of industry alone. True False
5. The only health effect of ozone pollution is coughing. True False
6. Cars contribute a lotto air pollution problems. True False
7. Air pollution is now under control and will not be a problem in the future. True False
Additional Activities
175
AQI Toolkit for Teaohors
-------�
What's Your A.Q.I.Q.? (Air Quality
Intelligence Quotient): True or False
Teacher Answer Sheet:
1. Air pollution is a problem only in big cities. False. Everyone is affected by air pollution.
The air we breathe does not usually stay in the same place, hovering over us. Oftentimes
the air moves. Wind carries pollution to us from hundreds of miles away. Also, the pol-
lution that we produce, no matter how small an amount it may seem, can be significant
when combined with everyone else's "small amounts."
2. Dirty air is costly to every American. True. We pay in health problems caused by air
pollution, and the cost of treating people with those health problems. Also, we pay hidden
costs in the price of things we buy, for example, the cost of new technology to reduce air
pollution. It is frequently less expensive to prevent pollution from occurring in the first
place, rather than cleaning it up after it pollutes the air.
3. When air is polluted, you can always see and smell it. fo/se.Some pollutants are odorless
and colorless (such as ozone). That is why it is important to find the Air Quality Index (AQI) in
the newspaper, on your favorite news station, or on the Internet (at: www.airnow.gov).
4. Clean air is the responsibility of industry alone. False. We all have an important role
to play in improving our air quality. Choices you can make to improve air quality include
turning off lights, TVs, and computers when not using them, and walking, bicycling, or
taking a train, bus, or subway (with adult permission) instead of driving places in a car,
when possible.
5. The only health effect of ground-level ozone pollution is coughing. False. Ozone pol-
lution can cause people to cough, but it can also affect our lungs-it can make it harder to
breathe, and make asthma worse.
6. Cars contribute a lot to air pollution problems. True. The automobile industry has made
some improvements in equipment in cars that helps reduce pollution, and individual cars
and buses release fewer pollutants into the air today than before. However, more people
are driving today than ever, and that adds up to a lot of pollution.
7. Air pollution is now under control and will not be a problem in the future. False.
Ozone and particle pollution are still serious problems in many locations in the United
States. We all need to be aware of how our activities contribute to pollution and find ways
to reduce air pollution and protect our health from the effects of air pollution.
(Source: Ozone Action! Let's Clear the Air. West Michigan Clean Air Coalition, Education, Educational Packet 6-8,
www.wmcac.org)
Additional Activities
176
AQI Toolkit for Teaohors
-------�
Concept Map
Have students develop their own concept maps on air quality. For information on concept
maps, see: www.inspiration.com/visual-learning/concept-mapping
Have the class make a list of key words relating to air quality, for example, some of the
vocabulary words in the lesson plans and fact sheets in this toolkit. Examples of possible
key words are: air pollution, emissions, ozone, particle pollution, AQI, smog, visible, invis-
ible, health, breathing problems, cough, heart problems, temperature inversion, school bus,
cars, factory smokestacks, asthma, car tailpipes, dirty windows.
In class or as homework, have students begin by writing the words "air quality" in the
middle of a blank page (preferably unlined paper). Tell them to add words that relate to
air quality, and add lines to connect the related words. Have them add "connecting words"
on the lines so that each statement makes sense (an example is "can cause" between
"air quality" and "breathing problems" and between "air quality" and "air pollution"). Tell
students that they can extend the branches out to three or four branches, and that they
should try to include examples and words from their own personal experiences. Tell stu-
dents they should also include pictures and colors in their concept maps. Have students
share their maps with the class, and hold a class discussion.
More Activity Ideas
Write a clean air poem.
Make a poster showing what people can do to protect their health when air quality is not
good (see Breathe Smart! Four Things Kids Can Do handout in this toolkit).
Make a poster showing what people can do to improve air quality (see Breathe Smart!
Four Things Kids Can Do handout in this toolkit).
Make a poster showing poor air quality (e.g., pollution from vehicle tailpipes, particle pol-
lution on windows, smokestacks) and good air quality. Remind students that air pollution
can also be invisible.
Additional Activities
177
AQI Toolkit for Teaohors
-------�
Grades 6-8
Create a timeline linking industrialization to air quality.
Write an essay. Tell students: You live in a biosphere because there is no clean air left
outside of it; write 10 of your thoughts/feelings about this. Have students read the essays
in class and discuss.
Write a report. Tell students: You are a local elected environmental official. What en-
vironmental regulations might you pass? Consider important issues in your community
(e.g., air quality in the community), and what barriers you might encounter (e.g., industry
doesn't want to spend more money on controlling air pollution; no public transportation
exists in your community). Read and discuss the reports in class.
Write a jingle/song encouraging people to improve air quality.
Take a series of photographs on air quality and display them on poster board. Share
students' photo displays with the class/school.
(Source:Flight for Life, www.nb.lung.ca/FFL/)
Research "green" vehicles, as described in the following activity.
Green Vehicles
Through class discussion and online resources, students learn about "green" vehicles-those
that are more fuel-efficient and/or produce less air pollution emissions-and "shop" for their
first car.
Ask students what they think "green" vehicles are. Then tell them that "green" vehicles can re-
fer to vehicles that are either energy-efficient, produce less air pollution, or both. Ask students
why they think most vehicles on the road today are not "green." Most cars today burn gaso-
line made from oil to produce energy to move the vehicle forward. Burning gasoline releases
emissions into the air that contain air pollutants or pollutant-forming substances. Because the
number of vehicles on the road, and the miles they travel, have almost doubled since 1970, air
pollution is still a serious problem. Decreasing amounts of oil available to produce gasoline is
also a major concern.
Describe several types of green vehicles to the class, including:
Hybrid vehicles - are more energy-efficient than conventional cars because hybrids use
electricity part of the time instead of gasoline; at other times they use gasoline. Hybrid
cars may or may not produce less air pollution emissions.
Low emission vehicles - produce less air pollution than older gasoline-powered vehicles.
There are also "ultra-low," "super-ultra low," "partial zero," and "zero" emission vehicles.
Most newer vehicles now meet low emission or ultra-low emission requirements. Electric
and fuel cell vehicles are examples of zero emission vehicles.
Additional Activities 178 AQI Toolkit for Teachers
-------�
Green Vehicles (continued)
Alternative fuel vehicles - use fuels other than gasoline, such as biofuels made from
biomass (natural materials such as plants and biodegradable wastes), ethanol, and metha-
nol. Propane or natural gas can also be used; these produce air emissions, but less than
gasoline-powered vehicles.
Electric cars - run completely on electricity instead of gasoline, and produce no air emis-
sions.
Fuel cell vehicles - use hydrogen instead of gasoline; other chemicals could also be used,
but these would most likely produce some air emissions (while fuel cells do not), although
less than using gasoline.
Hybrids are currently available to buy commercially. Vehicles powered by ethanol in combina-
tion with gasoline are also readily available. The other types of green vehicles or alternative
fuels are generally not yet commercially available, but much research is being conducted on
them.
Ask students: If you were going to buy your first car next week, what things would you look
for? (Probable answers: color, speed, cost, special features.) Ask them if they would consider
how much gasoline a vehicle uses (miles per gallon), and much fuel would cost to fill up the
tank (how "fuel-efficient" the vehicle is). Ask them if they would consider how much air pol-
lutant emissions a car produces.
With students, visit EPA's Green Vehicle Guide Web site at www.epa.gov/greenvehicles/
Howto.do and compare hybrids to other makes and models.
Also visit the U.S. Department of Energy's and EPA's Fuel Economy Web site at www.
fueleconomy.gov/feg/findacar.htm, which compares vehicles based on miles per gallon,
annual fuel cost, and EPA pollution score.
For more information on green vehicles, see the Web site:
www.sdrafvc.org/PDFS/CarsCarsCars05.pdf.
Also let students know that properly maintained vehicles pollute much less and get better gas
mileage. Tell them that they can encourage their family to keep vehicle engines properly tuned
and tires properly inflated, and not to top off the gas tank when fueling - gas spills evaporate
and contribute to smog. Also tell them that turning off a car when it's standing still (like when
you're waiting for someone to come out of his or her house), rather than keeping it going at
such times (known as "idling"), reduces air pollution and saves gasoline.
Summarize by telling students that one of the best ways to protect air quality is to reduce our
use of gasoline-powered vehicles when possible and switch to cleaner fuels when available.
Using buses, bicycles, subways, trains, and car pools, or walking places instead of using cars,
helps keep the air clean.
(Source: American Lung Association of San Diego and Imperial Counties, CA, Education, Cars, Cars, Cars Lesson
Plan & Teacher's Guide)
Additional Activities
179
AQI Toolkit for Teaohors
-------�
-------�
Resources for Teachers
Good
Moderate
Unhealthy for Sensitive Groups
Unhealthy
Very Unhealthy
-------�
-------�
Air Pollution and Health
Through regulation and voluntary change, levels of many air pollutants have decreased sig-
nificantly in recent decades. Still, in many parts of the U.S. the air is often polluted at levels
that can affect our health. Millions of people are exposed to unhealthful levels of ground-level
ozone or particle pollution every year.
Ozone
What is ozone? Ozone is an odorless, colorless gas composed of three atoms of oxygen.
Ozone occurs naturally in the Earth's upper atmosphere (the stratosphere) and as a pollutant
at ground level. Stratospheric ozone protects us from the sun's harmful ultraviolet rays. This
beneficial ozone is gradually being destroyed by manmade chemicals. At ground level, ozone
is a harmful pollutant formed when emissions from vehicles, power plants, and industrial
sources react in the presence of sunlight and heat.
When and where is ozone a concern? Because it needs heat to form, ozone pollution is a
concern in warmer weather, particularly in the afternoon and early evening. Ozone can be
transported by winds hundreds of miles from where it formed, so it can be found in both
urban and rural environments.
Can we see ozone in the air? By itself, ozone in the air is invisible, so we can be breathing
harmful ozone levels even when the air looks clear. When ozone mixes with particles (de-
scribed below), it forms a brown summertime haze known as "smog."
Why is ozone pollution bad? Ozone can trigger a variety of health problems, even at rela-
tively low levels. Health effects from ozone include aggravated asthma and increased suscep-
tibility to respiratory illnesses like pneumonia and bronchitis. Symptoms to watch for when
ozone is in the air include coughing, pain when taking a deep breath, and breathing difficul-
ties, especially when you are active outdoors. But ozone damage can also occur without any
noticeable signs. And, for some people, several months of repeated exposure to ozone can
permanently damage the lungs. Ozone is also bad for our environment, damaging plants and
trees and reducing crop and forest yields.
Who's at risk from ozone pollution? People with respiratory problems are most vulnerable,
but even healthy people and children who are active outdoors can be affected when ozone
levels are unhealthy. This is because during physical activity, ozone penetrates deeper into the
parts of our lungs that are most vulnerable to ozone.
Particle Pollution
What is particle pollution? Particle pollution includes dust, soot, dirt, and liquid droplets.
Some particles are large enough to be visible. Others can only be seen under a microscope. The
smaller particles cause the greatest health concern because they penetrate deeper into the
lungs and can even enter our bloodstream.
What causes particle pollution? Sources of particle pollution include vehicles, factories, and
power plants, as well as natural sources such as forest fires and volcanoes.
When and where is particle pollution worst? Particle pollution can be high at any time of
year. It can be especially bad during winter, when warm air above cold air causes "inversions"
Teaohors 183 AQI Toolkit for Teaohors
-------�
that can trap pollutants in one area for a period of time. Particle pollution can be higher near
busy roads and factories, and can reach very hazardous levels in areas downwind of forest
fires. Particle pollution can be high indoors, especially when outdoor particle levels are high.
Why is particle pollution bad? Health effects from particles range from coughing and ag-
gravated asthma to chronic bronchitis and even premature death. Many studies link particle
pollution levels with increased hospital admissions and emergency room visits. If you have
heart disease, particle exposure can cause serious problems in a short period of time-even
heart attacks-with no warning signs. Particle pollution also has significant environmental
effects. Particles are a major component of haze, which can reduce visibility, for example in
national parks and other scenic vistas. Particles are a major contributor to "acid rain," which
harms the environment in a number of ways, including making lakes and other water bodies
more acidic, which can harm the health of aquatic life; damaging trees and soils; and deterio-
rating buildings and statues.
Who's at risk from particle pollution? People with heart or lung disease are at risk because
particle pollution can aggravate these diseases. Many studies show that when particle levels
are unhealthy, older adults are more likely to be hospitalized, and some may die of aggravated
heart or lung disease, perhaps because these diseases were previously undiagnosed in these
patients. Children are at risk because their lungs are still developing and they are usually very
active.
Protect Your Health
Because ozone and particles remain a significant public health concern in many areas of the
U.S., the U.S. EPA, in partnership with federal, state, and local agencies and tribes, have set
up a nationwide network for reporting daily air quality information and forecasts for these
two pollutants, as well as three others. This information is available on the Internet at: www.
airnow.gov, in newspapers, via radio and television announcements, and in many areas via air
quality notifications sent to your email or cell phone (www.airnow.gov/enviroflash). Daily air
quality is reported using a standard, color-coded scale called the Air Quality Index, or AQI. The
AQI makes air quality reports as easy to understand as weather reports.
The best way to protect your health is to check the air quality level and forecast daily for your
area, and the related health messages provided by the AQI. By doing so, you can find out when
ozone or particle levels are elevated. You can also take simple precautions to minimize expo-
sure, even when you don't feel obvious symptoms. Precautions include:
When possible, plan activities and exercise when pollution levels are lower (e.g., typically
morning or evening for ozone).
If pollution levels are unhealthy, take it easy when you are active outside. For example, re-
duce the intensity of your activity (e.g., go for a walk instead of a jog) or reduce the length
of your activity. You can also choose to exercise at another time or on another day when
the air quality is better. That way, you will reduce the amount of pollution you breathe.
To reduce exposure to particle pollution, exercise away from busy roadways and other pol-
lution sources.
Check with your health care provider if you notice any symptoms (such as coughing,
wheezing, difficulty breathing, or chest pain) when the air is polluted. This is especially im-
RQfiouroQS for Teaohors 184 AQI Toolkit for Teaohors
-------�
portant if you are a member of a sensitive group (i.e., for ozone-active children or adults,
and people with lung disease; for particle pollution-people with heart or lung disease,
older adults, and children).
Teaohors 185 AQI Toolkit for Teaohors
-------�
What Is the Air Quality Index (AQI)?
The AQI is an index for reporting daily air quality. It uses a simple color-coded scale to tell you
how clean or polluted your air is, and how you can protect your health at different levels of
pollution. The AQI helps to make daily air quality information as easy to understand as weath-
er forecasts.
How Does the AQI Work?
The AQI is essentially a yardstick that runs from 0 to 500. The higher the AQI value, the greater
the level of air pollution and the greater the health concern. For example, an AQI value of 50
represents good air quality with little potential to affect public health, while an AQI value over
300 represents hazardous air quality.
An AQI value of 100 generally corresponds to the national air quality standard for the pollutant,
which is the level EPA has set to protect public health. When AQI values are above 100, air quality is
considered to be unhealthy-at first for certain sensitive groups of people, then for everyone as AQI
values get higher.
Understanding the AQI
To make it easier to understand, the AQI is divided into six categories:
Air Quality Index Values Levels of Health Concern Colors
When the AQI is in this range:
Oto50
51 to 100
101 to 150
151 to 200
201 to 300
301 to 500
...air quality conditions are:
Good
Moderate
Unhealthy for Sensitive
Groups
Unhealthy
Very Unhealthy
Hazardous
...as symbolized by this color:
Green
Yellow
Orange
Red
Purple
Maroon
Each category corresponds to a different level of health concern:
"Good"The AQI value for a particular community is between 0 and 50. Air quality is
considered satisfactory, and air pollution poses little or no risk.
"Moderate"The AQI for a community is between 51 and 100. Air quality is acceptable;
however, for some pollutants there may be a moderate health concern for a very small
number of people. For example, people who are unusually sensitive to ozone may experi-
ence respiratory symptoms.
"Unhealthy for Sensitive Groups"When AQI values are between 101 and 150, members
of sensitive groups may experience health effects. This means they are likely to be af-
fected at lower levels than the general public. For example, people with lung disease are at
greater risk from exposure to ozone, while people with either lung disease or heart disease
are at greater risk from exposure to particle pollution. The general public is not likely to be
affected when the AQI is in this range.
RQfiouroQS for Teachers 186 AQI Toolkit for Teachers
-------�
"Unhealthy"Everyone may begin to experience health effects when AQI values are between
151 and 200. Members of sensitive groups may experience more serious health effects.
"Very Unhealthy"AQI values between 201 and 300 trigger a health alert, meaning
everyone may experience more serious health effects.
"Hazardous"AQI values over 300 trigger health warnings of emergency conditions.
The entire population is more likely to be affected.
How Is a Community's AQI Calculated?
Air quality is measured by monitors that record the concentrations of the major pollutants
each day at more than a thousand locations across the country. These raw measurements are
then converted into AQI values using standard formulas developed by EPA. An AQI value is cal-
culated for each pollutant in an area (ground-level ozone, particle pollution, carbon monoxide,
sulfur dioxide, and nitrogen dioxide). The highest AQI value for the individual pollutants is the
AQI value for that day. For example, if on July 12 a certain area had AQI values of 90 for ozone
and 88 for sulfur dioxide, the AQI value would be 90 for the pollutant ozone on that day.
When and How Is the AQI Reported to the Public?
In large cities (more than 350,000 people), state and local agencies are required to report the
AQI to the public daily. When the AQI is above 100, agencies must also report which groups,
such as children or people with asthma or heart disease, may be sensitive to those pollutants.
Many smaller communities also report the AQI as a public health service.
Many cities also provide forecasts for the next day's AQI. These forecasts help local residents
protect their health by alerting them to plan their vigorous activities for a time when air qual-
ity is better.
The AQI is a national index, so the value and colors used to show local air quality and the lev-
els of health concern will be the same everywhere in the U.S. You can always find AQI reports
for areas across the U.S. on the Internet at EPA's AIRNow web site: www.airnow.gov. The AQI
is also frequently reported in local newspapers, on local television and radio stations, and on
many state and local telephone hotlines.
What Are Typical AQI Values in Most Communities?
In many U.S. communities, AQI values are usually below 100, with values greater than 100 oc-
curring just several times a year. Typically, larger cities have more severe air pollution prob-
lems, and the AQI in these areas may exceed 100 more often than in smaller cities. AQI values
higher than 200 are infrequent, and AQI values above 300 are extremely rare.
AQI values can vary from one season to another. In winter, for example, carbon monoxide may be
high in some areas because the cold weather makes it difficult for car emission control systems
to operate effectively. In summer, ozone may be a significant air pollutant because it forms in the
presence of heat and sunlight. Particle pollution can be elevated at any time of the year.
AQI values also can vary depending on the time of day. For example, ozone levels often peak
in the afternoon, while carbon monoxide is usually a problem during morning or evening rush
hours. Particle pollution can be high at any time of day.
Teaohors 187 AQI Toolkit for Teaohors
-------�
Additional Air Quality Resources
Curricula, Lesson Plans, and Activities
Air Pollution: What's the Solution?
This educational project uses online, real-time air quality and weather data to guide Grades 6-
12 students in understanding the science behind the causes and effects of ground-level ozone
pollution. Available at: www.k12science.org/curriculum/airproj7
Air Quality Education Program
The Delaware Department of Natural Resources and Environmental Control's Air Quality Edu-
cation Program for Grades 6-12 includes detailed lesson plans. Available at: www.dnrec.state.
de.us/DNREC2000/Divisions/AWM/aqm/education/Contnt.htm
AirNow Teacher's Air Quality Resources
This webpage provides curriculum resources, environmental education materials and class-
room activities, www.airnow.gov/teachers
AQI Toolkit for Weathercasters
EPA's AQI Toolkit for Weathercasters is a companion to this AQI Toolkit for Teachers. The
weathercasters toolkit includes presentations on air quality, weather, the AQI, ozone, particle
pollution, and health for Grades 3-8 and adults, and earlier versions of the lesson plans in this
toolkit. Available at: www.airnow.gov/index.cfm?action=aqifor.weathercast
Clean Air Campaign
The Clean Air Campaign and the Georgia Environmental Protection Division provide air quality
lesson plans as well as school programs and children's activities. Available at:
www.cleanaircampaign.org/Your-Schools
Eco Badgeฎ Educational Products
Vistanomics' "eco store" sells air quality educational materials, including the Eco Badgeฎ (a
compact, easy-to-use device to measure ozone levels at home or in the work environment).
The site also provides examples of successful teacher programs using the Eco Badge. Available
at: www.ecobadge.com
EPA Teaching Resources-Air
This Web page provides links to curricula and activities on a variety of environmental topics,
including ozone and the AQI. Available at: www.epa.gov/students/teachers.html
Flight for Life
The New Brunswick Lung Association provides educational resources on respiration, indoor
and outdoor air quality, climate change, and health for elementary, middle school, and high
school teachers and students. Available at: www.nb.lung.ca/FFL
RQfiouroQS for Teaohors 188 AQI Toolkit for Teaohors
-------�
In The Air
Provides environmental education materials for Grades K-12 and adults on airborne toxics.
Developed by the Missouri Botanical Garden's Earthways Center and the EPA. Available at:
www.intheair.org
Ozone Action
The West Michigan Clean Air Coalition offers educational packets with lesson plans and activi-
ties for Grades K-12. Available at: www.wmcac.org/resources/education.html
The KnowZone
Developed by the California Air Resources Board, The KnowZone offers a variety of teacher
and student resources, including lesson plans, a video, a presentation, and Safe Routes to
Schools information. Available at: http://www.arb.ca.gov/knowzone/knowzone.htm
Sun Wise School Program
An environmental and health education program designed to teach children and their care-
givers how to protect themselves from overexposure to the sun. Available free of charge to
schools, the SunWise Tool Kit contains classroom lessons and background information for
Grades K-8. Available at: www.epa.gov/sunwise
Walking for Health and the Environment Curriculum
This curriculum for Grades K-5 helps students make connections between exercise, health, and
the environment. Developed by Walk Boston and Eastern Research Group, Inc. (ERG). Available
at: http://www.walkboston.org/what-we-do/initiatives/safe-routes-school
Selected Web Sites
AIRNow Web site
The AIRNow Web site provides the public with easy access to air quality information. The Web
site provides real-time air quality conditions and daily air quality forecasts for over 300 cities
across the U.S., teacher and student resources, links to more detailed state and local air quality
Web sites, and real-time images of air quality and visibility via webcams. Available at: www.
airnow.gov.
AIRNow's air quality resources for teachers can be found at:
www.airnow.gov/teachers
AIRNow's Air Quality Index Kids Page can be found at:
www.airnow.gov/kids
Smog City 2
The Smog City 2 Web site explores particle pollution and ozone pollution in a hypothetical city.
Users can change variables such as weather conditions, emission levels, and population, and
see how these changes affect air quality. Developed by the U.S. EPA and the Sacramento Air
Quality Management District. Available at: www.smogcity2.org
Teaohors 189 AQI Toolkit for Teaohors
-------�
Selected EPA Air Quality Publications
The following U.S. EPA publications are available online (print versions may be available free of
charge) at: http://www.airnow.gov/index.cfm?action=pubs.index
Air Quality IndexA Guide to Air Quality and Your Health. This booklet explains EPA's
Air Quality Index (AQI) and the health effects of major air pollutants.
Air Quality Guide for Ozone. This guide provides information about ways to protect your
health when ozone levels reach the unhealthy range, and ways you can help reduce ozone
air pollution.
Air Quality Guide for Particle Pollution. This guide provides information about ways to
protect your health when particle pollution levels reach the unhealthy range, and ways
you can help reduce particle air pollution.
Particle Pollution and Your Health. This short, colorful pamphlet describes who is at risk
from exposure to particle pollution (also known as particulate matter), what health effects
may be caused by particles, and simple measures that can be taken to reduce health risk.
Ozone and Your Health. This short, colorful pamphlet describes who is at risk from expo-
sure to ozone, what health effects are caused by ozone, and simple measures that can be
taken to reduce health risk.
Ozone: Good Up High, Bad Nearby. This publication provides information about
ground-level and high-altitude ozone and their different effects.
Smog Who Does it Hurt? This 8-page booklet provides more detailed information than
"Ozone and Your Health" about ozone health effects and how to avoid them.
Summertime Safety: Keeping Safe from Sun Smog. This document discusses summer
health hazards that pertain particularly to children and includes information about EPA's
Air Quality Index and UV Index tools.
"Why is Coco Orange?" This picture book introduces the AQI colors to children in grades
K-2, teaches them what the different colors mean, how to recognize health symptoms and
what actions to take when air quality is bad (www.airnow.gov/picturebook).
School Flag Program. A school based program that protects children's health.
Schools fly a flag based on the color of the AQI to indicate the local air quality con-
ditions. Information and resources are available on the flag program website at:
www.airnow.gov/schoolflag
Effects of Common Air Pollutants Poster. This 18"x 24" poster depicts and illustrates
respiratory and cardiovascular effects of air pollution and symptoms. http://www.airnow.
gov/index.cfm?action=health_providers.index
RQfiouroQS for Teaohors 190 AQI Toolkit for Teaohors
-------� |