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Edward W. Gunn

Edward W. Gunn. Physical Science Grade Eight Blairs Middle School. Standards of Learning (SOL). PS.1 & PS.7 – An Insulated Cola Bottle. Objectives In this experiment, the student will. investigate the insulating properties of aluminum foil, newspaper, and styrofoam

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Edward W. Gunn

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  1. Edward W. Gunn Physical Science Grade Eight Blairs Middle School

  2. Standards of Learning (SOL) • PS.1 & PS.7 – An Insulated Cola Bottle

  3. ObjectivesIn this experiment, the student will • investigate the insulating properties of aluminum foil, newspaper, and styrofoam • use a CBL System, and two temperature probes to measure temperature • determine change in temperature, Δt • make a bar graph of Δt values • compare the effectiveness of different insulation materials • build a well-insulated cola bottle

  4. CBL System 2 Vernier Temperature Probes 2 Vernier Adapter Cables 2 Slit Stoppers Glass Bottle Aluminum Covered Glass Bottle Newspaper Covered Glass Bottle Styrofoam-covered Glass Bottle Hot Water MATERIALS

  5. PROCEDUREPart I – Investigating Insulation • 1. Obtain and wear goggles. • 2. Get 4 identical cola bottles. Wrap one with a layer of aluminum foil (shiny side in), one with newspaper, and a third one with styrofoam or another plastic material. One of the four bottles will remain unwrapped. • 3. Plug adapter cables into channels 1 and 2 of the CBL System. Then plug probe 1 into the adapter in channel 1 of the CBL and probe 2 into the adapter in channel 2. • 4. Turn on the CBL Unit. Press PRGM and select PHYSCI. Press enter, then press enter again to go to the main menu.

  6. PROCEDURE continued • 5. Set up the CBL for two temperature probes and two temperature calibrations. • Select set up probes from the main menu. • Enter “2” as the number of probes. • Select TEMPERATURE from the select probe menu. • Enter “1” as the channel number. • Select USED STORED from the calibration menu.

  7. PROCEDURE continued • 6. Set up the CBL for data collection. • Select COLLECT DATA from the main menu. • Select TIME GRAPH from the data collection menu. • Enter “15” as the time between samples in seconds. • Enter “80” as the number of samples (the CBL will collect data for a total of 20 minutes).

  8. PROCEDURE continued • Enter “30” as the minimum temperature. • Enter “50” as the maximum temperature. • Enter “5” as the temperature increment. • 7. Get 2 slit stoppers that properly fit your bottles. Carefully fit the stoppers onto the probes.

  9. PROCEDURE continued • 8. Fill the uncovered bottle and the aluminum-covered bottle with hot water, allowing just enough space for the stoppers. Be careful not to get the insulation materials wet. A good way to fill the insulated bottles and keep their insulation dry is to first completely fill the uncovered bottle and then use a funnel to transfer its contents to an insulated bottle.

  10. PROCEDURE continued • 9. Collecting Data • Insert the slit stoppers and probes into the proper bottles. • Probe 1 – uncovered bottle • Probe 2 – aluminum-covered bottle • Allow the temperature probes about 45 seconds to warm to the temperature of the water. • Press ENTER to begin data collection

  11. PROCEDURE continued • 10. To record your data when data collection is complete ( after 20 minutes): • Press ENTER to display a graph of temperature vs. time for probe 1. • Use  to examine the data points along the curve. As you move the cursor right or left, the time (x) and the temperature (y) values of each data point are displayed below the graph.

  12. PROCEDURE continued • Record the beginning (highest) temperature and final (lowest) temperature (round to the nearest 0.10C). • Press ENTER to get a graph of temperature vs. time for probe 2. • Use  to examine the data points along the curve. • Record the temperature range as you did for Probe 1.

  13. PROCEDURE continued • Press ENTER, then choose yes to repeat the procedure for the newspaper-covered bottle and the styrofoam-covered bottle. • Note: It is important to begin with the hot water temperatures close to those in step 8.

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