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Lab #12: Water
In this activity you will learn about water treatment and water hardness. In the first part of the lab you will view some videos on water treatment and answer questions. In the second part of the lab you will test for water hardness in your home.
Video 1: Twin Cities Waste Water Treatment video
Watch this 15 minute video on sewage treatment in the metro area and answer the following questions:
1. What happened to St. Paul waste water prior to 1938? Why did this become a problem?
2. What does MCES stand for and what do they do today?
3. Where does waste water go directly after you flush or use the sink?
4. What percent of the Twin Cities metro area waste water does the Metro plant treat?
5. In primary treatment, what is an example of “floatable” material?
6. In secondary treatment, what does the brown color of the wastewater come from?
7. What is the last stage of the treatment process?
8. How often are water samples taken and tested?
Video 2: Testing for water hardness in your home
1. Using your text, what ions are usually present in hard water?
2. What are some problems that can occur if your water is too hard?
3. Collect two water samples from your home. Obtain one sample from the kitchen sink and another sample from the bathroom sink. Test the water with dish soap as described in the video. Take a picture of your water samples immediately after shaking.
a. Describe what you see for your water sample from the kitchen. How hard is the water?
b. Describe what you see for your water sample from the bathroom. How hard is the water?
c. Do you know if your water is treated with a water softener? Check your faucets to see if there is evidence of hard water build-up. Do your observations match with what you determined in parts (a) and (b)?
US Air quality Activity. Name: _________________________
Air quality can vary from day-to-day. Some agencies monitor air quality levels on an hourly basis and will provide forecasts so that sensitive people can plan their day accordingly.
Go to http://www.pca.state.mn.us/, Scroll down a bit and you will see a map of Minnesota indicating current air quality measurements. Click this map. First, learn about some of the pollutants used to calculate the air quality index. Click on “about air quality data” on the right side of your screen.
At the end of the reading, find the following three links to use to answer questions 4-5
· Air quality and health, Using AQI to reduce exposure to air pollution, and What you can do about air pollution.
Questions to answer (1pt unless otherwise indicated)
1. List the five pollutants that are used to calculate the AQI (air quality index) in Minnesota.
2. What is an air pollution health alert?
3. Read the “factors that contribute to poor air quality” section. List at least 4 different facts you learned in this section.
4. What are at least three health effects caused by air pollution?
5. What are at least two ways to minimize exposure to air pollutants on days when levels are unhealthy or worse?
6. Now go back to the “Current Air Quality” page (with the map of MN), click the back button on your browser to go back one page or find the link at the top. Scroll down and look at the current conditions listed under the map. (2pts)
a) What is the current AQI number for the Twin cities? _______
b) Which of the 5 pollutants is currently listed as the one being used to determine the AQI? ______________________
c) What is the forecasted AQI for the Twin Cities over the next few days?
7. Go to https://airnow.gov/ and look at an AQI map of the entire United States. Spend some time looking at the forecast and current AQI maps. Find an area that has moderate or greater concern (any area that is not green) and click on that part of the map to bring up the regional display for the area you selected. (2 pts)
a) What area of the United States did you select that has AQIs of concern?
b) You should see a list of cities in the region you selected. Choose a city with data and with AQI levels of concern and click on that city name. What city did you select?
c) On the right side of the screen you should see the air quality forecast and the current conditions for the city you selected. What is the current AQI the city you selected? Which of the five pollutants is being used to calculate the AQI (which is highest)?
d) Based on what you learned in question 5 above and the types of pollution of most concern, come up with a prediction about the cause of the air pollution in the area you selected.
Lab #10: Chemical Weathering
In this experiment, you will learn the importance, abundance and some of the reactions of calcium and other carbonates normally found in Earth’s crust. You will explore how different types of rocks react to some of the weathering agents such as water and acid.
· Lemon juice
· Clear plastic cups
· Dropper or plastic pipette
· Pieces of white chalk
· Optional- different rock types (quartz or granite)
The Earth is not homogeneous and is composed of different layers. Each layer has a different composition. The lithosphere is the rigid outer layer that contains the crust and upper mantle. The lithosphere is composed of three equally important components, namely, inorganic (rocks and mineral), organic (soil and fossil fuel), and biological (flora and fauna). Our focus for this chapter and activity is on inorganic components.
Rocks and mineral are all around us. Watch this video to understand the difference between rocks and minerals. Weathering describes the breaking down or dissolving of rocks and minerals on the surface of the Earth. Water, ice, acids, salts, plants, animals, and changes in temperature are all agents of weathering. Weathering wears away exposed surfaces over time. Chemical weathering occurs at a second stage of rock disintegration in which small pieces of rock produced by physical weathering are then further broken apart by chemical processes such acid reactions, hydrolysis and oxidation.
Acid rain is formed when certain pollutants dissolve in rain creating stronger acids. Learn more about acid rain here. Acid rain is one factor that can increase the rate of erosion, with effects that can be seen in just a few decades. Limestone and marble are composed calcium carbonate, the same material as chalk, and are commonly used for constructing buildings and statues. Rain that is too acidic will “eat away” at these structures very quickly.
Acids in rain such as sulfuric acid (H2SO4) dissolves the calcium carbonate to make a moderately soluble form of calcium, CaSO4 (called gypsum), along with carbon dioxide and water. This is an acid-base neutralization.
This could also have positive impact: the regions where the bedrock or soil contain large amounts of limestone are less likely to have polluted water due to acid rain than areas with igneous bedrock. This is because the limestone (which is a base) is able to neutralize acid rain before it gets into the lakes and rivers. This means that damage due to acid rain depends on both the pH (amount of acid in a substance) of the rain and the type of soil/bedrock.
In this activity, you will explore the effect of acetic acid (found in vinegar) and lemon juice on chalk. You can also repeat this activity with other rocks (if available) and record your observations.
Prepare three clear plastic cups and label them as water (W), vinegar (V), and lemon juice (L). Add about 20 ml of each liquid into these cups respectively.
Crush Break chalk into approximately three 1/2 cm pieces.
Crush each 1/2 cm piece of chalk into smaller pieces, keeping each crushed 1/2 cm portion separate from each other.
Crush the first piece into smaller pieces and add to the cup containing water. Observe the changes that take place. Record your observations the data table.
Repeat with second piece of chalk and add to the cup containing vinegar. Record your observations. Take a picture.
Repeat with third piece of chalk and add to the cup containing lemon juice. Record your observations. Take a picture.
Look and listen carefully each time you add the chalk pieces to these liquids.
This is optional: You can also repeat the activity with other rock such as quartz or granite. You may not be able to break those into smaller pieces though, but you can still try by taking small pieces.
1. What do you understand by the term weathering in the context of this chapter?
2. Briefly describe the difference between minerals and rocks.
3. What is an acid rain? List one positive and one negative impact of the acid rain.
4. Which rock types are sensitive to acids?
Record your observations in the following data table:
Limestone or quartz (optional)
1. Did the water and vinegar act the same way on chalk?
2. What type of reaction is occurring between the chalk and vinegar?
3. Write the chemical equation for the reaction between acetic acid (C2H4O2) and limestone (CaCO3).
4. Predict what could have happened if you added more chalk to the vinegar? Explain your prediction in terms of above neutralization reaction.