part 1 of 3) Two moles of helium gas initially at 321 K and 0.42 atm are compressed isothermally to 1.83 atm. The Find the final volume of the gas. Assume that helium behaves as an ideal gas. universal gas constant is 8.31451 J/K - mol. Answer in units of m (part 2 of 3) Find the work done by the gas. Answer in units of kJ. part 3 of 3 Find the thermal energy transferred. Answer in units of k.J.

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part 1 of 3)
Two moles of helium gas initially at 321 K
and 0.42 atm are compressed isothermally to
1.83 atm.
The
Find the final volume of the gas. Assume
that helium behaves as an ideal gas.
universal gas constant is 8.31451 J/K - mol.
Answer in units of m
(part 2 of 3)
Find the work done by the gas.
Answer in units of kJ.
part 3 of 3
Find the thermal energy transferred.
Answer in units of k.J.
Transcribed Image Text:part 1 of 3) Two moles of helium gas initially at 321 K and 0.42 atm are compressed isothermally to 1.83 atm. The Find the final volume of the gas. Assume that helium behaves as an ideal gas. universal gas constant is 8.31451 J/K - mol. Answer in units of m (part 2 of 3) Find the work done by the gas. Answer in units of kJ. part 3 of 3 Find the thermal energy transferred. Answer in units of k.J.
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