One cubic metre of argon at `27^(@)C` is adiabatically compressed so that the final temperature is `127^(@)C`. Calculate the new volume of the gas `(gamma=5//3)`.

1000 cm^3 of argon at 27^circC is adiabattically compressed so that the temperature is 127^circC . Calculate the resulting volume. Given gamma=5/3 .

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)

At 27^(@)C, a gas is suddenly compressed such that its volume becomes 1/8 th or original volume. Pressure of the gas will become (gamma=5//3)

Five moles of neon gas (molecular weight=20) at 2 atm and 27^@C is adiabatically compressed to one-third its initial volume. Find the final pressure, the temperature and the work done on the gas.

One mole of an ideal gas with gamma = 1.4 , is adiabatically compressed so that its temperature rises from 42°C to 48°C . The change in the internal energy of the gas is ( R = 8.3 J / mol / K )

An ideal gas at pressure of 1 atmosphere and temperature of 27^(@)C is compressed adiabatically until its pressure becomes 8 times the initial pressure, then the final temperature is (gamma=3//2)

An ideal gas is compressed adiabatically to 1/4 th of its initial volume at 10^(@)C . Find out the final temperature of the gas [gamma = 1.4] .