To what pressure must a certain ideal gas `(gamma=1.4)` at 373 K and 1 atmospheric pressure be compressed adiabatically in order to raise its temperature to 773K?

With what minimum pressure (in kPa), a given volume of an ideal gas (C_(p,m)=7//2R) originally at 400 K and 100 kPa pressure can be compressed irreversibly adiabatically in order to raise its temperature to 600 K :

With what pressure must a given volume of oxygen, originally at 300K and 1 bar pressure be adiabatically and irreversibly compored in order to raise its temperture to 600K (gamma=7//5)

A mass of diatomic gas (gamma=1.4) at a pressure of 2 atomphere is compressed adiabitically so that its temperature rises from 27^(@)C to 927^(@)C . The pressure of the gas in the final state is

A given mass of monoatomic gas occupies a volume of 4 litre at 1 atmosphere pressure and 300 K. It is compressed adiabatically to 1 litre. Find Final pressure and temperature

An ideal gas at 27^(@)C is compressed adiabatically to 8//27 of its original volume. If gamma = 5//3 , then the rise in temperature is

A given mass of monoatomic gas occupies a volume of 4 litre at 1 atmosphere pressure and 300 K. It is compressed adiabatically to 1 litre. Find Increase in the internal energy

Three moles of a ideal gas at 200K and 2.0 atm pressure undergo reversible adiabatic compression until the temperature becomes 250 K for the gas C_(v)" is "27.5JK^(-1)mol^(-1) in this temperature range. Calculate q, w, DeltaU,DeltaH and final V and final P.