Pump some air into the container and hold the volume constant.Heat the gas using the heater under the container. temperature(K) pressure(kPa) 400 800 500 1000 600 1200 700 1400 800 1600 900 1800 1)Plot a graph of Pressure vs temperature and attached the graph below (show the data points and label the axes) 2)find the “molar density” of the gas in the container. (unit of answer: mole/m3)(Hint: consider the ideal gas law , the graph should be ??=??? a straight line, you can use the slope of the graph to find the answer. Pay attention to the unit. R=ideal gas constant=8.314 JK-1mol-1=8.314 m3PaK-1mol-1) Include the appropriate units in the physical quantities.(with steps)
Pump some air into the container and hold the volume constant.Heat the gas using the heater under the container. temperature(K) pressure(kPa) 400 800 500 1000 600 1200 700 1400 800 1600 900 1800 1)Plot a graph of Pressure vs temperature and attached the graph below (show the data points and label the axes) 2)find the “molar density” of the gas in the container. (unit of answer: mole/m3)(Hint: consider the ideal gas law , the graph should be ??=??? a straight line, you can use the slope of the graph to find the answer. Pay attention to the unit. R=ideal gas constant=8.314 JK-1mol-1=8.314 m3PaK-1mol-1) Include the appropriate units in the physical quantities.(with steps)
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter19: Temperature, Thermal Expansion And Gas Laws
Section: Chapter Questions
Problem 76PQ
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Pump some air into the container and hold the volume constant.Heat the gas using the heater under the container.
temperature(K) | pressure(kPa) |
400 | 800 |
500 | 1000 |
600 | 1200 |
700 | 1400 |
800 | 1600 |
900 | 1800 |
1)Plot a graph of Pressure vs temperature and attached the graph below (show the data points and label the axes)
2)find the “molar density” of the gas in the container. (unit of answer: mole/m3)(Hint: consider the
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