Acid Rain
The Snapshot button is used to capture the screen. The Journal is where snapshots are stored and viewed. The Share button is used to export or print your journal to turn in your work. Introduction Journals and Snapshots Note: You may want to take a snapshot of the first page of this lab as a cover page for your Journal. Each page of this lab that contains the symbol should be inserted into your journal. After completing a lab page with the snapshot symbol, tap (in the upper right hand corner) to insert the page into your journal. Acid Rain
What makes normal rain into "acid rain"? What causes this phenomena and how does it relate to the chemical concept of pH? Lab Challenge Acid Rain
Acid rain is a form of precipitation with an unusually low pH. The acidity causes harmful effects on the environment and living systems. Pollution is a primary cause of acid rain. Harmful gases produced during the burning of fossil fuels (particularly coal) interact with water in the air to form acids that become part of the precipitation. pH is a measurement of the concentration of hydrogen ions [H+] in water. pH values can range from 0 through 14. The lower the pH, the higher the concentration of hydrogen ions and the more acidic a substance is. A pH of 7 is neutral—neither acidic nor basic. pH values greater than 7 are considered basic. Background Acid Rain
This image is a reminder to tap to take a snapshot of the page after you have entered your response. Self-Check 1.Acid rain is rainwater with an unusually low ______________. a)particle count b)base c)volume d)pH Acid Rain
Background Acid rain causes the pH of lakes and streams to drop, killing some organisms in those environments, especially smaller organisms. Acid rain can also harm plants and other terrestrial organisms by lowering the pH of the soil. Acid rain accelerates the decay of building materials (such as limestone and marble), metals (such as bronze), automotive paint, and other coatings. The harmful pollutant gases that cause acid rain can also lower the visibility of air and make the air less healthy to breathe. Acid Rain
Self-Check 2.Acid rain causes the ______ of lakes to drop and can even make statues slowly _______. a)rise: pollute b)pH : dissolve c)temperature : freeze d)number : rust Acid Rain
Safety Use all standard laboratory safety procedures. Do not let the hydrochloric acid (HCl) touch your skin or clothes. The glass pipette used to transfer HCl is fragile. Handle with care. Do not remove the rubber stopper from the Erlenmeyer flask once reactions have started. Dispose of solutions down the drain with excess water. After completing the lab, wash your hands with soap and water. Acid Rain
Materials and Equipment Collect all of these materials before beginning the lab. Sodium bicarbonate (NaHCO 3 ), 5 g Sodium bisulfite (NaHSO 3 ), 5 g Sodium nitrite (NaNO 2 ), 1.5 g 1 M HCl, 15 mL Glycerin Water or deionized water, 60 mL Wash bottle containing distilled or deionized water Balance pH sensor Erlenmeyer flask, 100 mL (3) 1-hole rubber stopper for flask (3) Glass tubing for rubber stopper Flexible tubing to fit glass tubing, 20 cm Beaker, 100 mL Graduated cylinder, 25 mL Graduated pipette and pipette bulb Acid Rain
Sequencing Challenge A. Determine the initial pH of a sample of distilled water. B. Assemble the gas generator. C. Bubble CO2 into the sample of distilled water while measuring pH. D. Bubble NO 2 into a sample of distilled water while measuring pH. E. Bubble SO 4 into a sample of distilled water while measuring pH. Acid Rain The steps to the left are part of the procedure for this lab activity. They are not in the right order. Determine the correct sequence of the steps, then take a snapshot of this page.
Overview In this lab, 3 gases will be created: CO 2, NO 2, and SO 2. Once the gases are created, they will be bubbled through water to see how they affect pH. Sodium bicarbonate (NaHCO 3 ) with hydrochloric acid (HCl) to produce carbon dioxide gas (CO 2 ). Sodium nitrite (NaNO 2 ) with hydrochloric acid (HCl) to produce nitrogen dioxide (NO 2 ). Sodium bisulfite (NaHSO 3 ) with hydrochloric acid (HCl) to produce sulfur dioxide gas (SO 2 ). Acid Rain
Setup: General 1.Connect a pH sensor to the data collection system. 2.Measure 20.0 mL of distilled water using a graduated cylinder. 3.Pour the water into the 100 mL beaker. 4.Thoroughly rinse the pH electrode with distilled water. 5.Place the rinsed pH electrode in the beaker. Acid Rain
Prediction: General Q1: What do you think will happen to the pH of the water when you dissolve these gases in it? Which gas will produce the largest change in pH? Acid Rain
Setup/Collect Data: CO 2 (g) and Water 1.Obtain a sample of powdered sodium bicarbonate (NaHCO 3 ) from the teacher. 2.Measure 5 grams of NaHCO 3. 3.Place the measured NaHCO 3 in the Erlenmeyer flask. Acid Rain
Setup/Collect Data: CO 2 (g) and Water 4.Assemble the flask, stopper, glass tubing or barbed connector, and flexible tubing. Erlenmeyer flask pH sensor Use glycerin to lubricate the connection Acid Rain Note: If necessary, use glycerin to lubricate the connections between flexible tubing, glass connector, and rubber stopper. Caution: Hydrochloric acid is a strong acid. Handle with care. Flush any spillage with a lot of water. 5.Add 4 mL of 1.0 M hydrochloric acid (HCl) into the Erlenmeyer flask and immediately stopper the flask.
Acid Rain 6.Place the free end of the flexible tubing in the water in the beaker. Immediately tap to begin recording data. 7.Record data for ~200 seconds or until the pH stabilizes. Then tap to stop recording.
Q2:What is happening to the pH of the water as you bubble CO 2 into it? Acid Rain
8.Determine the minimum and maximum pH* for the CO 2 run and record these values in the data table on the next page. * To Find the X- and Y-Values of a Data Point: 1.Tap to open the tools palette. 2.Tap and then tap a data point. 3.Tap or to select nearby data points. Acid Rain
9.Record the minimum and maximum pH values in the data table.* *To Enter Data into a Table: 1.Tap to open the tool palette. 2.Tap then tap a cell in the data table to highlight it in yellow. 3.Tap to open the Keyboard screen. Acid Rain
Setup/Collect Data: NO 2 (g) and Water 1.Dispose of the contents in the flask and beaker from the previous trial, as directed by your teacher. 2.Thoroughly rinse the pH sensor electrode using the wash bottle. 3.Rinse the beaker and tubing with water. 4.Measure 20.0 mL of distilled water (not tap water) using a graduated cylinder. 5.Pour the water into the 40-mL beaker. 6.Thoroughly rinse the pH electrode with distilled water (not tap water). 7.Place the rinsed pH electrode in the beaker. Acid Rain
Setup/Collect Data: NO 2 (g) and Water 8.Measure 5 g sodium nitrite (NaNO2). 9.Place the measured NaNO 2 into a clean Erlenmeyer flask. 10.Reassemble the flask, stopper, glass tubing or barbed connector, and flexible tubing (same as for CO 2 run). 11.Add 4 mL of 1.0 M hydrochloric acid (HCl) into the Erlenmeyer flask and immediately stopper the flask. Acid Rain
12. Place the free end of the flexible tubing in the water in the beaker. Immediately tap to begin recording data. 13. Record data for ~200 seconds or until the pH stabilizes. Then tap to stop recording.
Acid Rain 14.Determine the minimum and maximum pH* for the NO 2 run and record these values in the data table on the next page. * To Find the X- and Y-Values of a Data Point: 1.Tap to open the tools palette. 2.Tap and then tap a data point. 3.Tap or to select nearby data points.
15.Record the minimum and maximum pH values in the data table.* *To Enter Data into a Table: 1.Tap to open the tools palette. 2.Tap then tap a cell in the data table to highlight it in yellow. 3.Tap to open the Keyboard screen. Acid Rain
Setup/Collect Data: SO 2 (g) and Water 1.Dispose of the contents in the flask and beaker from the previous trial as directed by your teacher. 2.Thoroughly rinse the pH sensor electrode using the wash bottle. 3.Rinse the beaker, flask, and tubing with water. 4.Measure 20.0 mL of distilled water (not tap water) using a graduated cylinder. 5.Pour the water into the 40-mL beaker. 6.Thoroughly rinse the pH electrode with distilled water (not tap water). 7.Place the rinsed pH electrode in the beaker. Acid Rain
Setup/Collect Data: SO 2 (g) and Water 8.Measure 5 g sodium bisulfite (NaHSO 3 ) 9.Place the measured NaHSO 3 into a clean Erlenmeyer flask. 10.Reassemble the flask, stopper, glass tubing or barbed connector, and flexible tubing (same as previous runs). 11.Add 4 mL of 1.0 M hydrochloric acid (HCl) into the Erlenmeyer flask and immediately stopper the flask. Acid Rain
12.Place the free end of the flexible tubing in the water in the beaker. Immediately tap to begin recording data. 13.Record data for ~200 seconds or until the pH stabilizes. Then tap to stop recording.
14.Record the minimum and maximum pH values in the data table.* 15.Calculate the change in pH for each run and record your data in the table. *To Enter Data into a Table: 1.Tap to open the tool palette. 2.Tap then tap a cell in the data table to highlight it in yellow. 3.Tap to open the Keyboard screen. Acid Rain
Clean up 1.Dispose of the contents of the flask and beaker from the previous trial as directed by your teacher. 2.Thoroughly rinse the pH sensor electrode using the wash bottle. 3.Rinse the beaker, flask, and tubing with water. Acid Rain
Analysis 1.In an ideal graph of these experiments, the pH change should be dramatic initially and then eventually level off. Why does this occur? Acid Rain
2.Compare the change in pH for each type of gas tested. Which showed the greatest and least change in pH? Based on this information, which gas is worst for the environment? Acid Rain Analysis
3.In the three reactions of gas dissolving in water, what caused the reduced pH of the water? Acid Rain Analysis
Synthesis 1.Which of the gases in this experiment is a man-made pollution that causes acid rain? What are some important sources of these gases? Acid Rain
Synthesis 2.Coal from states in the western United States, like Montana and Wyoming, has a lower percentage of sulfur impurities than coal found in the eastern United States. How would burning low-sulfur coal change acid rain? Acid Rain
Synthesis 3.What are some ways to treat the effects of acid rain? Acid Rain
Synthesis 4.What are some ways to PREVENT the formation of acid rain? Acid Rain
Synthesis 5.Although carbonic acid produces only a small decrease in pH of water, why is it of concern in the environment? Acid Rain
Multiple Choice 1.Which of the following is true about acid rain? a)Acid rain is linked to NO 2 and SO 2 molecules in the atmosphere. b)Acid rain can result in the death of many species of water-dwelling organisms when it causes the pH of lakes to decrease to a level outside their tolerance. c)Acid rain affects soil chemistry and the ability of plant roots to take in nutrients. d)All of the above are true. Acid Rain
Multiple Choice 2.Which of the following play an important role in the formation of acid rain? a)gases in the atmosphere b)buffers in soils and water c)water in the atmosphere d)A and C Acid Rain
Multiple Choice 3.In general, rain exerts harmful effects on ecosystems when it falls below a pH of _______. a)3.6 b)4.6 c)5.6 d)6.6 Acid Rain
4.Acid rain has been linked to which of the following? a)Damage to fish through reactions that create high aluminum concentrations in the water. b)Reduced nutrient uptake by tree roots. c)Weakening trees, so they become more susceptible to other types of damage. d)All of the above. Acid Rain Multiple Choice
You have completed the lab. Congratulations! Please remember to follow your teacher's instructions for cleaning-up and submitting your lab. Acid Rain
Images are taken from PASCO documentation, public domain clip art, or Wikimedia Foundation Commons References Acid Rain