A. For the data in the data table, graph the data. NOTE: 1. Start the volume on the graph at zero and consider 1 cm = 20 ml. on the graph 2. Start the graph at -350 °C The graph will allow you to extrapolate (extend the graph beyond measured data) the graph to reach a gas volume of 0 ml. The temperature at which the volume of the gas reaches zero is the theoretical temperature of Absolute Zero. B. Draw a best fit line for the data points. C. Find the slope of the line. Slope Equation = > Draw a LARGE triangle on your graph in order to find the rise & run. From the triangle, show how you find the rise and the run for the line graph. SHOWALL your work on the graph. Write on the graph - Slope = rise > then put in your values for rise and run ON YOUR GRAPH. > Find the value of the slope (in decimal form) Slope = Analysis Questions: 1. Write two slope equations: Slope = 2. Write slope value with unit: Slope = 3. What is the y-intercept value? 4. From this graph, what is the Celsius Temperature for Absolute Zero? 5. What is the total temperature difference between 100° C and -350° C = run

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Physics The volume of a gas decreases as the temperature of the gas decreases. A sample of gas was collected at 100 degrees Celsius and then cooled. The changes in the volume of the sample are shown below. T (°C) 100 80 60 40 30 20 10 0 -10 -30 Start graph at -350 A. For the data in the data table, graph the data. V (ml) 320 297 288 278 252 B. Draw a best fit line for the data points. C. Find the slope of the line. Slope Equation = > > 243 236 NOTE: 1. Start the volume on the graph at zero and consider 1 cm = 20 ml. on the graph 2. Start the graph at -350 °C Analysis Questions: 233 227 202 Start graph at 0 The graph will allow you to extrapolate (extend the graph beyond measured data) the graph to reach a gas volume of 0 ml. The temperature at which the volume of the gas reaches zero is the theoretical temperature of Absolute Zero. Draw a LARGE triangle on your graph in order to find the rise & run. From the triangle, show how you find the rise and the run for the line graph. SHOWALL your work on the graph. Write on the graph - Slope = rise then put in your values for rise and run ON YOUR GRAPH. Find the value of the slope (in decimal form) Slope = 1. Write two slope equations: Slope = 2. Write slope value with unit: Slope = 3. What is the y-intercept value? 4. From this graph, what is the Celsius Temperature for Absolute Zero? 5. What is the total temperature difference between 100° C and -350° C = ? run