Calculate the rise in temperature when a gas, for which `gamma = 1.5` is compressed to 27 times its original pressure, assuming the initial temperature to be `27^(@)C`.

Calculate the change in temperature when a gas ( gamma = 1.4) is suddenly allowed to expand to one hundredth of its original pressure, its original temperature being 37^@C .

Calculate the final temperature when a given mass of a gas at 0^@C is suddenly compressed adiabatically to a pressure 20 times the initial pressure gamma=1.42

Some amount of gas at 27^@ is suddenly compressed to 8 times its initial pressure .If gamma = 1.5 Find out rise in temperature.

Some amount of gas at 27^(@)C is suddenly compressed to 27 times its initial pressure. If gamma = 1.5 , find out the rise in temperature.

An ideal gas at a pressures 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 (Take, gamma = 3/2).

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)

300K a gas (gamma = 5//3) is compressed suddenly so that its pressure becomes 1//8 of the original pressure. The final temperature of the gas is :