One mole of oxygen being initially at a temperature `T_0 = 290 K` is adiabatically compressed to increase its pressure `eta = 10.0` times. Find :
(a) the gas temperature after the compression ,
(b) the work that has been performed on the gas.

Four moles of oxygen being initially at temperature T_0=300K is adiabatically compressed so the pressure becomes 128P_0 , P_0 is initial pressure find (a) the gas temperature after compression (b) The work that has been performed on the gas.

One mole of gas of specific heat ratio 1.5 being initially at temperature 290 K is adiabatically compressed to increase its pressure 8 times. The temperature of the gas after compression will be

One mole of gas of specific heat ratio 1.5 being initially at temperature 290 K is adiabatically compressed to increase its pressure 8 times. The temperature of the gas after compression will be

One mole of nitrogen gas being initially at a temperature of T_(0)=300 K is adiabayically compressed to increase its pressure 10 times. The final gas temperature after compression is (Assume, nitrogen gas molecules as rigid diatomic and 100^(1//7)=1.9 )

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.

A diatomic gas initially at 18°C is compressed adiabatically to one eighth of its original volume. The temperature after compression will be

A diatomic gas initially at 18^(@) is compressed adiabatically to one- eighth of its original volume. The temperature after compression will b

A diatomic gas initially at 18^(@) is compressed adiabatically to one- eighth of its original volume. The temperature after compression will b