TeachRock

Preparation:

1. Create a large pitcher (around 2 liters) of “dirty water” by mixing clean water with various pollutants such as dirt, liquid detergent, vinegar, and/or food coloring.
2. Cut the 2-liter bottles in half horizontally, and place the top half face-down in the bottom half.

Motivational Activity:

1. Play Jon Connor’s song “Fresh Water for Flint” (Note: The song contains strong language, teacher discretion advised. The link will open to the official song on YouTube, we suggest loading the video before class to avoid showing advertising during class.) Ask students:
   • What event is being referred to in the sample at the beginning of the song?
   • Based on any prior knowledge, what do you know about the Flint water crisis?
   • What do you feel is the mood of this song? What emotion do you think Connor is conveying? What aspects of the song lead you to this conclusion? (Students might consider the prevalent use of powerful drums, the strong lyrics, the angry tone in Connor’s voice, etc.)
   • Why might Connor be conveying this emotion in the song?
   • Why might Connor feel so strongly about the situation in Flint? (Connor is from Flint, Michigan.)

Procedure:

1. Tell students that in this lesson they will be examining the science and politics behind the ongoing Flint water crisis, which relates to the water treatment. Ask students:
   • What is water treatment? (Water treatment is the process by which water is cleaned and disinfected for healthy consumption.)
   • Why is water treatment important? What might result from ineffective water treatment?
2. Divide students into groups, and tell them they will be creating and experimenting with their own water treatment systems. Have each student group go to a station. Each station should contain:
   • A 2-liter soda bottle, split in half.
   • Cups full of various filtering components: small pebbles, large pebbles, sand, coffee filters, activated charcoal
   • 1-2 empty cups
   • A water testing kit
3. Decide as a class what they will be testing their water for (the tests differ depending on which test kit is purchased. For instance, different kits may provide tests for pH level, iron, turbidity, etc.) Then, as a class, conduct the tests on the dirty water created before class, which could either represent waste water (any water affected by human use), or naturally occurring water from rivers, lakes, and reservoirs. Record the results of the tests on the board, for the whole class to see.
4. In their groups, ask students to place the bottleneck face down into the other half of the bottle. Then have students experiment with placing different filtering materials in coffee filters in the top of the bottle, running the dirty water through the filter into the beaker, testing the result with the water treatment tests. (A YouTube video of this process can be found here.)
5. Give each student group Handout 1 – Filtering Experiment Observations, and ask students to record their experiments on the handout. Students should experiment with different filtering materials, tests, and different ways in which the materials are layered.
6. After the experiments, ask student groups to share the results of their water treatment tests. After comparing their results, ask the class:
   • In general, which filter materials changed the results of the water test?
   • Did different filters have different effects on the results?
   • Did different filter combinations have different effects on the results? What combination seemed the most successful?
   • Were there any tests in which filters made no difference?
   • Based on the class’s evidence, which filter system is the most efficient at eliminating pollutants in water?
   • Based on the results of the experiments, do you think filtering is the only process in water treatment?
7. Show Image 1, Water Treatment Diagram. Read aloud as a class each step in the water treatment process. Ask students:
   • How many processes in this diagram did the class cover in the experiment?
   • Why are all these steps required to treat water? What do they each accomplish?
   • What might happen if one of these steps is eliminated?
8. Tell students they will now be watching an interview with Dr. Mona Hanna-Attisha, a pediatrician who was the first to discover high levels of lead in Flint’s drinking water. Play “Dr. Mona Hanna-Attisha on Discovering Lead in Flint.” Ask students:
   • According to Hanna-Attisha, what types of products or processes expose people to lead?
   • Why does Hanna-Attisha describe lead exposure as a form of “environmental injustice”? What kinds of people are most affected by lead exposure?
   • Why did Hanna-Attisha “freak out” when discovering there was lead in Flint’s water supply?
9. Pass out Handout 2 – “Lead Poisoning and Health” from the World Health Organization. Read the article out loud as a class, and then ask:
   • What is lead? Where is it found?
   • How can lead enter into the body?
   • What systems of the body does lead affect?
   • Where is lead stored in the body, and how is it distributed throughout the body?
   • What are some of the symptoms of lead poisoning?
   • What kinds of people are particularly vulnerable to lead poisoning? Why?
10. Play clip “Dr. Mona Hanna-Attisha on the Cause of the Flint water crisis.” Then show Image 2, Map of Michigan, and ask students:
    • According to Hanna-Attisha, why did the city officials of Flint decide to switch water sources? What new source of water was chosen?
    • Based on the map of Michigan, did the city of Flint lack any nearby sources of fresh water?
    • What caused lead to get into the water? Was lead present in the Flint river, or did get into the water in another way?
11. Show Image 1, Water Treatment Diagram once again. Ask students:
    • What component of the water treatment process is Hanna-Attisha referring to?
    •  What might have caused the city of Flint to not include this component in the treatment of the Flint river water?
12. Pass out Handout 3 – “Why didn’t Flint treat its water? An answer, at last” After reading the article, ask students:
    • According to the article, was Flint obliged to provide corrosion treatment for their water supply?
    • How much would it have cost the city to add this treatment?
    • When did the city start adding corrosion control to the water treatment facility? Why didn’t they make this decision sooner?
    • What excuse did the state of Michigan make for not including corrosion control in Flint’s water treatment? Did they admit it was a cost-cutting measure?
    • According to the article, how long were Flint residents exposed to lead in the drinking water before action was taken? Do you think this is an acceptable amount of time to address such a concern?

Summary Activity:

1. Ask students:
   • Based on what you discovered in class, why might Jon Connor have expressed so much anger in the song “Fresh Water for Flint”? As a resident of Flint, what might be the source of his frustration?
   • Why did the Flint water crisis occur? Was it a problem that required new scientific research or technological innovation to solve? Or was it something else?
2. Show Image 3, Water Quality Action Plan. Ask students to follow the instructions in the image, and share their action plan with the rest of the class.
3. Have students share their hypothetical action plan with us at info@teachrock.org!

Extension Activities:

1. In August 2020, the state of Michigan reached a $600 million dollar settlement to compensate residents in Flint, Michigan for their exposure to lead in their drinking water. Read more about the settlement in this NPR article, then write a short response on whether you feel the settlement is an appropriate response for what occurred in Flint.
2. Writing Prompt: Once Mona Hanna-Attisha’s research revealed high levels of lead in Flint’s water supply, she immediately took her findings public. Her actions went against scientific protocol, which requires research to be peer-reviewed, or verified by other scientists, before being made public. Hanna-Attisha defended her actions by arguing that Flint was undergoing a public health crisis that couldn’t wait for scientific verification. Write a short paper arguing whether Hanna-Attisha made the right decision in this circumstance. In your paper, consider the possible repercussions if Hanna-Attisha’s findings were not accurate.
3. Writing Prompt: The Flint water crisis reveals that science and scientific research never exists in a vacuum–it is connected with issues of politics and economics. Given this fact, do you think it is part of a scientist’s responsibility to be politically and socially involved? Or, is a scientist’s primary role to focus on conducting research and advancing technologies, leaving issues of politics and economics to others? Simply put, are activism or advocacy essential parts of being a scientist?
4. Research another instance of environmental racism. Write a summary of the issue and the community it has affected. Include in your summary scientific explanations on why the particular pollutant is harmful, whether it is affecting people today, and it’s similarity or difference to the Flint water crisis. Possible instances to investigate might include:
   • Superfund Sites in the United States
   • Cancer Alley
   • The Response to Hurricane Katrina
   • Denmark, South Carolina water contamination
   • The Dakota Access Pipeline
   • Air Pollution in South Los Angeles
5. Read the New York Times article “Flint’s Water Crisis Started Five Years Ago. It’s Not Over” and summarize how the Flint water crisis continues to affect people today.
6. Read the article “Children’s Health Research Centers Protect Our Kids. The EPA Just Defunded Them,” and answer the following questions:
   • What is the purpose of the Children’s Health Research Center? What kind of research has been funded through this program?
   • According to the author, why must children’s health research be different than adult health research? What evidence does the author provide to support this argument?
   • According to the author, what was the motivation behind cutting funds for this program? Is it related to children’s health, or something else?
   • According to the author, what might the impact be of the decision to defund this program?
   • How is this decision similar to the decisions that led to the Flint water crisis?
   • What is the author advocating at the end of this article?

Explore Further:

The following websites offer more information on what is being done to ensure clean water in Flint and throughout the United States:

Flint Cares

Clean Water Fund

Clean Water Action

Handout 1 – Filtering Experiment Observations Handout 2 – “Lead Poisoning and Health” Handout 3 – “Why didn’t Flint treat its water? An answer, at last”