www.TeachEngineering.org: Free Curriculum for K-12

Contributed by: Integrated Teaching and Learning Program,, College of Engineering, University of Colorado at Boulder

Colorado Science
- 4.1 Students know and understand the composition of Earth, its history, and the natural processes that shape it. (Grades 0 - 12) [1995]
- 3.1 Students know and understand the characteristics of living things, the diversity of life, and how living things interact with each other and with their environment. (Grades 0 - 12) [1995]
- Standard 5:
  Students know and understand interrelationships among science, technology, and human activity and how they can affect the world. (Grades 0 - 12) [1995]

Does this curriculum meet my state's standards?

Long ago people were not worried about clean air, because there seemed to be an endless supply of it. Today, many more people live in our world, and we are rapidly polluting this essential resource. We need to find better ways to protect and improve our air.

Most of the time, we hardly notice the air around us; usually, we cannot see it or taste it. Air does not generally smell, but it carries substances that we do smell. However, we can feel air when it moves, and we can see the effects of air on our surroundings. When air moves, it has great power (e.g., to push sailboats, drive windmills and move clouds) and when it is compressed (i.e., squashed into a small space), it has great strength (e.g., air in a tire supports a vehicle and helps a helicopter to rise into the air).

Clean air contains only the gases and water vapor needed to keep the Earth's environment healthy. Pollutants are substances, or even energy, that harm living — and some non-living — things. A high concentration of pollutants in the air is called air pollution.

Air pollution can destroy our environment and can cause humans and other living things to become sick. Sometimes, air pollution can cause rashes, eye/nose irritation, headaches, sleepiness, coughing, sneezing and dizziness. If you breathe in too much air pollution, of a very high concentration, it can cause severe illnesses, such as cancer, asthma, kidney failure, liver damage and even birth defects. Air pollution affects the plants and animals in our environment as well as destroying buildings.

What causes air pollution? There are a lot of things that cause this air nuisance. Specific outdoor sources of pollution include car exhaust, residential fireplaces, power plants, and factories. Indoor sources of pollution include cleaning supplies, cigarette smoke, furnaces and outdoor pollutants brought inside.

But can we live without air? No! We must have air to survive. Because of this, engineers are working diligently to try to solve our air pollution problems. There are many things that complicate these solutions, so engineers that work on air pollution problems must have a good understanding of the composition and characteristics of air before beginning to design technology solutions for air pollution. Some of the technologies that engineers have designed to clean up air pollution include a scrubber, an electrostatic precipitator, a cyclone and a baghouse. Today, we are going to look at what air pollution is and how engineers try to clean it up.

Air:	The mixture of invisible odorless tasteless gases (as nitrogen and oxygen) that surrounds the earth.
Air Pollution:	The gases and particles which affect the quality of the air around us, which are harmful to the environment, and/or which enter the atmosphere at highly concentrated levels. Generally consists of: visible gases, invisible gases, and particulates (like soot).
Air Quality Index (AQI):	AQI is also called the Pollution Standards Index. Scientists use it to describe how clean or dirty the air is based on five main pollutants.
Allergy:	A physical reaction (sneezing, coughing, etc.) to something in the air (like pollen, dust, pollution, etc.).
Atmosphere:	The layer of air that surrounds Earth like a blanket. It keeps the Earth warm and protects it from harmful radiation.
Baghouses:	Large filters that work very much like a giant vacuum. Heavy dirt particles fall out and are removed and the smaller particulates are trapped on filters (bags) made of cloth, paper or similar materials. Particles are shaken or blown from the filters into a collection hopper. Industries often use baghouses to help decrease (or perhaps even prevent) air pollution.
Carbon Dioxide (CO2):	A colorless, odorless gas formed during breathing, combustion and decaying that adds to the greenhouse effect.
Carbon Monoxide (CO):	A colorless, odorless gas made of one carbon atom and one oxygen atom.
Catalytic Converters:	An emission-control device that changes hydrocarbons and carbon monoxide in automobile exhaust into carbon dioxide and water vapor.
Cyclones:	A device that provides a low-costs method for controlling particulate pollutants. Dust-laden gas is whirled very rapidly inside a collector shaped like a cylinder. The swirling motion creates centrifugal forces that cause the particles to be thrown against the walls of the cylinder, which then drop into a hopper and are properly disposed.
Dioxin:	A highly toxic family of chemicals used to make poisonous substances like weed killers and bleaching products (like for paper). It is poisonous at 1 ppb (part per billion).
Electrostatic Precipitators:	A device for controlling particulate pollutants. A static charge makes dirt particles stick to electrified plates (much the same way that static electricity in clothing attracts small bits of dust and lint). The dirt is knocked loose, collected and removed.
Emissions:	Gases or particles that are given off when fossil fuels are burned.
Fossil Fuel:	Something that forms naturally, underground from the remains of ancient organisms (plants and animals) from millions of years ago. Coal is an example of a fossil fuel.
Global Warming:	Described as an increase in average temperatures all over the world. Some people think this is caused by an increase in the greenhouse effect due to increased greenhouse gases in the atmosphere.
Greenhouse Effect:	This occurs when gases in the atmosphere, like carbon dioxide, trap heat in the atmosphere. (Usually just the right amount of heat is trapped to support life on Earth.)
Hydrocarbon:	An organic compound containing atoms of hydrogen and carbon.
Industrial Smog:	Air that contains sulfur oxide and solid particles that are released when fossil fuels are burned. It appears as a grayish haze and usually forms over heavily industrialized cities.
Nitrogen Oxides:	Gases that form when nitrogen and oxygen in the atmosphere are burned with fossil fuels at high temperatures.
Oxygen:	A colorless, tasteless and odorless gaseous element that constitutes 21 percent of the atmosphere.
Ozone (O3):	G round-level ozone is the principal component of smog, created from chemical reactions of pollutants: VOCs, and NOx.
Particulate Matter:	Very small particles of solid matter and/or droplets of liquid. It includes things that have been burned, ash, smoke, soot, dust, pollen, soil or even chemicals — basically, anything that floats in the air.
Photochemical Smog:	A condition that occurs when strong sunlight reacts with pollution (formaldehyde, ozone and pollutants from cars and power plants). It appears as a brownish-orange haze and usually appears over large cities.
Pollutant:	A harmful chemical or waste material discharged into the water or atmosphere. Some pollutants are visible and some are invisible.
Reformulated Gasoline (RFG):	A cleaner-burning form of gasoline that reduces the amount of pollutants emitted into the air through an automobile's tailpipe and via evaporation from the gas tank. Oxygenates are a principal component.
Scrubbers:	A particulate pollution-reduction device in which solid particles and gases are trapped as they pass through a fine water mist. Sometimes the mist is injected with limestone powder to help extract the dirt particles. A drawback of this device is the production of wastewater.
Smog:	A combination of smoke and fog in the air.
Thermal Inversion:	When an upper layer of warm air traps the pollutants over a lower layer of cool air, preventing normal atmospheric circulation.
Visible Pollutants:	Air pollution that can be seen with the naked eye.
Volatile Organic Compound (VOC):	All VOCs contain carbon (C), the basic chemical element found in living beings. Carbon-containing chemicals are called organic (O). Volatile (V) chemicals escape into the air easily. Many are also hazardous air pollutants, which can cause very serious illnesses. Aerosol hairspray and air freshener are both examples of a VOC.

Imagine what the world will be like if we do not develop some solutions to our air pollution problems. Even today, if people travel to places where there is not as much air (the top of a mountain or underwater) or no air at all (space) they have to take air with them. This could become an everyday experience if we continue to neglect and mistreat this essential natural resource. During this lesson, we have only considered industrial changes and technologies for controlling air pollution. What do you think we can do in our own lives to control/prevent the amount of air pollution that we cause? (Possible answers may include: walking more, joining a car pool, taking the bus/train, riding a bike, reducing the amount of energy we use, turning lights off, and buying environmentally friendly products, like non-aerosol hair spray and non-toxic cleansers.)

Pre-Lesson Assessment

Human Matching: Print the air sayings and meanings (provided below and as an attachment), and cut apart each of the boxes. You may have more of your own that you would like to add before doing this. Ask for volunteers from the class to come up to the front of the room, and give each a one of them pieces of paper. Have all volunteers read what is written on their papers one at a time. Have students match term to definition by voting. Have students "terms" stand by their "definitions." At the end, give a brief explanation of concepts.

Alternatively:

Give students a handout and have them match the sayings to the meanings.
Write the "Air Sayings" on the board or a transparency and ask students to describe what these sayings mean.
Hand out one strip (either a saying or a meaning) to each student as they enter the classroom. Describe to the students that some of them have received a strip with a saying that makes reference to air. Explain that other students in the classroom have received a description of what on of the air sayings means. (Note: You may want to use one of them as an example.) Ask the students to find their "partner." Each pair should consist of a matching saying and meaning. After all the students have found their partners, ask them to read their sayings and meaning aloud to the rest of the class.

(Source of sayings: The Air I Breathe, by Bobbie Kalman & Janine Schaub, New York, NY: Crabtree Publishing Company, 1993.)

Post-Introduction Assessment

Discussion Questions: Ask the students and discuss as a class:

Does the quality of our air matter? Is clean air important? (Answer: Yes, polluted air can cause serious health problems, such as cancer, lung disease and headaches, among others, for people and is hazardous for animals/plants who inhabit Earth.)
How does air get dirty? What is air pollution and where does it come from (sources)? (Answer: It is caused by several things that people do, especially burning fossil fuels when driving automobiles or operating power plants.)
What can happen if you breathe polluted air? (Answer: It can cause serious effects on humans and other life on Earth, such as itchy eyes, coughing, and change in or destruction of our buildings, etc.)
How can engineers help control the amount of air pollution in the air? (Answer: Engineers work to develop technologies to help reduce the emission of and even clean the pollutants out of the air.)

Chart Reading: Give each student the Sources of Air Pollution Handout. Briefly discuss the contents of the handout. Ask students to keep these for reference during the lesson.

Lesson Summary Assessment

Flashcards: Have students create flashcards of the air pollution vocabulary terms using the Air Pollution Flashcards attachment. (Note: You will need 1 set of the flashcards per student. The cards are set up so that you can print 2-sided copies on your printer: the odd pages are the terms and the even pages are the definitions. If you cannot print double sided automatically, print the odd pages first, and then print the even pages on the back side of each odd page. Make sure you put the odd page back in the printer in the right order and the correct way.) It may help if you copy these onto a heavy weight card stock.

Give each student a copy of the flashcards.
Ask them to find a picture or draw a picture to represent each term and place it on the term side of the flashcard.
Have the students cut out their flashcards.
Have students get in pairs and have them quiz each other. (It will be more challenging if they try to guess using their partner's flashcards.)

Homework

Worksheet: Assign the Clean Air Act Worksheet as homework. Ask them to pretend to be engineers trying to pass a new bill in Congress. They should use specific information that they have learned in this lesson. Go over the worksheets during the next class period.

Andromeda, MacMillan Encyclopedia of Science, Revised Edition, Volume 7, The Environment, New York, NY: MacMillan Reference Books, 1997.

Bosak, Susan V. Science is…: A source book of fascinating facts, projects, and activities, Markham, Ontario: Scholastic Canada Ltd., pg. 207, 2000.

DiSpezio, Science Insights: Exploring Matter and Energy, New York, NY: Addison Wesley, 1996.

Kerrod, Robin and Evans, Ted. The Environment (Let's Investigate Science), New York: Benchmark Books, 1993.

Lawrence Hall of Science, University of California, Berkley. FOSS Science Series, Environments, Nashua, NH: Delta Education, 1993.

Markle, Sandra. The Kids' Earth Handbook, New York, NY: Atheneum, 1991.

Peet, Bill. The Wump World, New York, NY: Houghton Mifflin, 1981.

Prentice Hall Science. Ecology Earth's Natural Resources Activity Book, New Jersey: Prentice Hall, Inc., 1993.

Stille, Darlene. The New True Book - Water Pollution, Chicago: Childrens Press, Inc., 1991.

US Environmental Protection Agency's, information on controlling source pollutants: http://www.epa.gov/docs/oar/oaqps/eog/course422/ce6a.html

US Environmental Protection Agency's definition of and information on air pollutants: Formerly at http://www.epa.gov/region01/eco/iaq/airpollu.html

Wisconsin Department of Natural Resources, Kid's Page: http://www.dnr.state.wi.us/org/caer/ce/eek/earth/air/index.htm