The pressure of an ideal gas can be expressed by P = AV ³ + BV² + C Where A = 3.00 x 105 Pa /mº and B = 5.00 x 105 Pa/m6, and C= 1.00 x 105 Pa The gas is enclosed in a special flexible container. After heating, the gas expands from 2.00 m³ to 3.60 m³ in a quasi-static process. The heat energy inputted into the system during this process is 20.0 MJ. Calculate the change in the internal energy of the gas system.
The pressure of an ideal gas can be expressed by P = AV ³ + BV² + C Where A = 3.00 x 105 Pa /mº and B = 5.00 x 105 Pa/m6, and C= 1.00 x 105 Pa The gas is enclosed in a special flexible container. After heating, the gas expands from 2.00 m³ to 3.60 m³ in a quasi-static process. The heat energy inputted into the system during this process is 20.0 MJ. Calculate the change in the internal energy of the gas system.
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Transcribed Image Text:The pressure of an ideal gas can be expressed by
P = AV ³ + BV² + C
Where A = 3.00 x 105 Pa /mº and B = 5.00 x 105 Pa/m6, and C = 1.00 x 105 Pa
The gas is enclosed in a special flexible container. After heating, the gas
expands from 2.00 m³ to 3.60 m³ in a quasi-static process. The heat energy
inputted into the system during this process is 20.0 MJ. Calculate the change
in the internal energy of the gas system.
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