
College Physics
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ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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Find the total work done on the gas using W=p∆V.

Transcribed Image Text:P, atm
2
1
A
D
1
2
B
с
3
V, L
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- A monatomic ideal gas expands from 1.00 m3 to 4.50 m3 at a constant pressure of 1.50×105 Pa. Find the change in the internal energy of the gas.arrow_forwardFind the total work done on the gas using W=p∆V.arrow_forwardVolume of ideal gas is increased from 2m^3 to 2 5m^3 while maintaining constant pressure of 3600psi. Calculate amount of work done by gas during expansion in J ?arrow_forward
- the volume of an ideal gas is decreased from 5L to 5mL at a constant pressure of 1 atm. Calculate the work associated with this process.arrow_forwardThe PV diagram shows the compression of 40.9 moles of an ideal monoatomic gas from state A to state B. Calculate Q, the heat added to the gas in the process A to B. Data: PA= 1.90E+5 N/m2 VA= 1.83E+0 m3 PB= 1.01E+5 N/m2 VB= 8.90E-1 m3›44arrow_forwardAn ideal monatomic gas undergoes changes in pressure and volume, as shown in the pV diagram below. The initial volume is 0.02 m3 and the final volume is 0.10 m3. The initial pressure is 1 atm and the final pressure is 2 atm. Recall that 1 atm = 101.3 kPa. (a) Calculate the magnitude, or absolute value, of the work done on the gas in this process. Answer = - 13429J (c) The initial temperature of the gas is 308 K. Calculate the temperature of the gas at the end of the process. Answer = 3080 k Just need answer with the following: (d) What is the change in thermal energy for the gas in this process? (e) Calculate the quantity of heat transfer added to (positive) or removed from (negative) the gas during this process.arrow_forward
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