Seasons and Angle of Insolation

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Computer Seasons and Angle of Insolation 29 (Adapted from Exp 29 Seasons and Angle of Insolation from the Earth Science with Vernier lab manual.) Have you ever wondered why temperatures are cooler in the winter and warmer in the summer? This happens because the Earth s axis is tilted. The Earth remains tilted as it revolves around the sun. Because of this tilt, different locations on the Earth receive different amounts of solar radiation at different times of the year. The amount of solar radiation received by the Earth or another planet is called insolation. The angle of insolation is the angle at which the sun s rays strike a particular location on Earth. When the north end of the Earth s axis points toward the sun, the Northern Hemisphere experiences summer. At the same time, the south end of the axis points away from the sun and the Southern Hemisphere experiences winter. Figure 1 In this experiment you will investigate the relationship between angle of insolation and temperature change due to energy absorption from a simulated sun a light bulb. OBJECTIVES In this experiment, you will Use a Temperature Probe to monitor simulated warming of your city by the sun in the winter. Use a Temperature Probe monitor simulated warming of your city by the sun in the summer. Measure the angle of insolation. Determine the relationship between temperature change and angle of insolation. Earth Science with Vernier 29-1

Computer 29 MATERIALS computer Vernier computer interface Logger Pro Temperature Probe ring stand globe of the Earth lamp with clear 60-150 watt bulb tape metric ruler two 40 cm lengths of string protractor utility clamp Figure 2 PROCEDURE 1. Set up the light bulb (simulated sun). a. Fasten the lamp to a ring stand as shown in Figure 2. b. Stand the ring stand and lamp to the left side of your work area. c. Position the globe with the North Pole tilted away from the lamp as shown in Figure 2. Position the bulb at approximately the same height as the Tropic of Capricorn. Note: The sun is directly over the Tropic of Capricorn on December 21, the first day of winter. 2. Attach the Temperature Probe to the globe. a. Find Des Moines, IA (41 35 27 N 93 37 15 W) on the globe. b. Tape the Temperature Probe to the globe with the tip of the probe at your location. Tape the probe parallel to the equator. Place the tape about 1 cm from the tip of the probe c. Fold a piece of paper and wedge it under the Temperature Probe to keep it in contact with the surface of the globe as shown in Figure 3. Figure 3 29-2 Earth Science with Vernier

3. Position the globe for winter (in the Northern Hemisphere) data collection. Seasons and Angle of Insolation a. Turn the globe to position the North Pole (still tilting away from the lamp), your location, and the bulb in a straight line. Tape the globe in this position so that it does not rotate. b. Measure the vertical distance from the Tropic of Capricorn to the table. Position the bulb so that its center is the same height from the table. c. Obtain a piece of string 40 cm long. d. Use the string to position your location on the globe 40 cm from the center of the end of the bulb. e. Do not turn on the lamp until directed in Step 7. 4. Measure the angle of insolation. a. Tape the 40 cm string from your location on the globe to the center of the end of the bulb. b. Tape another piece of string from the Tropic of Capricorn to the center of the end of the bulb. This string should be taut and parallel to the table. Use only as much of the string as needed. c. Use a protractor to measure the angle between the strings. d. Record the angle in your data table. e. Remove the tape and string from the bulb and globe. 5. Connect the Temperature Probe to the Vernier computer interface. 6. Prepare the computer for data collection by opening the file 29 Seasons from the Earth Science with Vernier folder. 7. Collect winter data. a. Note and record the temperature displayed in the meter. b. Click to begin data collection. c. After the first temperature reading has been taken, turn on the lamp. d. When data collection stops after 5 minutes, turn the lamp off. e. Choose Store Latest Run from the Experiment menu. Caution: Do not touch the bulb. It will be very hot. 8. Position the globe for summer data collection. a. Rotate the entire globe setup so that North Pole is tilted toward the lamp. Note: This represents the position of the Northern Hemisphere on June 21, the first day of summer. b. Turn the globe to position the North Pole, your location, and the bulb in a straight line. c. Use the string to position your location on the globe 40 cm from the bulb. d. Do not turn on the lamp until directed in Step 10. 9. Measure the angle of insolation. a. Tape the 40 cm string from your location on the globe to the center of the end of the bulb. b. Tape another piece of string from the Tropic of Cancer to the center of the end of the bulb. This string should be taut and parallel to the table. Only use as much of the string as needed. c. Use a protractor to measure the angle between the strings. d. Record the angle in your data table. Earth Science with Vernier 29-3

Computer 29 e. Remove the tape and string from the bulb and globe. 10. Collect summer data. a. Let the globe and probe cool to the temperature that you recorded in Step 7. b. Click to begin data collection. c. After the first temperature reading has been taken, turn on the lamp. d. When data collection stops after 5 minutes, turn the lamp off. e. Click the Statistics button,, then click to display Statistics boxes for both runs. Record the minimum and maximum temperature for each run in your data table. 11. Sketch copies of the graph in the space below. 29-4 Earth Science with Vernier

Seasons and Angle of Insolation DATA - Des Moines, IA (41 35 27 N 93 37 15 W) Beginning temperature ( o C) Winter Summer Maximum temperature ( C) Minimum temperature ( C) Temperature change ( C) Angle of Insolation ( ) 12. Repeat the experiment for Anchorage, Alaska (61 13 06 N 149 53 57 W) in the Northern Hemisphere and Havana, Cuba (23 08 00 N 82 23 00 W) in the Northern Hemisphere. DATA - Anchorage, Alaska (61 13 06 N 149 53 57 W) Beginning temperature ( o C) Winter Summer Maximum temperature ( C) Minimum temperature ( C) Temperature change ( C) Angle of Insolation ( ) DATA - Havana, Cuba (23 08 00 N 82 23 00 W) Beginning temperature ( o C) Winter Summer Maximum temperature ( C) Minimum temperature ( C) Temperature change ( C) Angle of Insolation ( ) Earth Science with Vernier 29-5

Computer 29 PROCESSING THE DATA 1. In the space provided in your data table, subtract to find the temperature change for each season. 2. How does the temperature change for summer compare to the temperature change for winter? 3. During which season is the sunlight more direct? Explain. 4. What would happen to the temperature changes if the Earth were tilted more than 23.5 degrees? 5. What relationship is there between angle of insolation and temperature change? 6. Draw a picture showing the setup you would use to measure the change in temperature in the Southern Hemisphere during their winter. 29-6 Earth Science with Vernier

Seasons and Angle of Insolation 7. What other factors affect the weather in a region? 8. Compare the temperature changes at various latitudes and determine the relationship between latitude and temperature change. How does latitude affect the seasonal variation of temperature? Earth Science with Vernier 29-7

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