[" One mole of ideal gas is allowed to "...

[" One mole of ideal gas is allowed to "],[" expand reversibly and adiabatically "],[" from a temperature of "27^(@)C" .If the "],[" work done by the gas in the process "],[" is "3kJ" ,the final temperature will be "],[" equal to "(C_(V)=20J/K" mol ")]

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One mole of an ideal gas is allowed to expand reversible and adiabatically from a temperatureof 27^(@)C) if the work done during the process is 3 kJ,the final temperature will be equal to (C_(v)=20JK^(-1))

One mole of an ideal gas is allowed to expand reversibly and adiabatically from a temperature 27^(@)C. If work done during the process is 3kJ final temperature of the gas is ( C_(v) = 20 JK^(-1) mol^(-1)]

One mole of an ideal gas expands reversibly and adiabatically from a temperature of 27^@C . If the work done during the process is 3 kJ, then final temperature of the gas is ( C_V = 20 J/K )

Calculate the final temperature of the gas, if one mole of an ideal gas is allowed to expand reversibly and adiabatically from a temperature of 27^@C and the work done Given (C_V=20J//K)

One mole of an ideal gas (gamma=7//5) is adiabatically compressed so that its temperature rises from 27^(@)C to 35^(@)C the work done by the gas is (R=8.47J/mol-K)

One mole of a gas is allowed to expand freely in vacuum at 27^(@)C . The work done during the process is :

[" One mole of ideal gas is allowed to "],[" expand reversibly and adiabatically "],[" from a temperature of "27^(@)C" .If the "],[" work done by the gas in the process "],[" is "3kJ" ,the final temperature will be "],[" equal to "(C_(V)=20J/K" mol ")]

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