An ideal gas is compressed at constant pressure of `10^(5)Pa` until its volume is halved. If the initial volume of the gas as `3.0 xx 10^(-2)m^(3)`, find the work done on the gas?

An ideal gas in a cylindrical vessel is confined by a piston at a constant pressure of 10^5 Pa. When 2 xx 10^4 J of heat is added to it,the volume of gas expands from 0.15m^3 to 0.25m^3 . What is the work done by the system in this process .

A cylinder contains one gram mole of H_2 at 17^@C and 2 atms. The initial volume of the gas is 2xx10(-3)m^3 . Find the work done if its volume changes by 15 percent.

A gas is compressed at a constant pressure of 50 Pa from a volume 10 m^3 to a volume of 4 m^3 . If 100 J of heat is added to the gas, then its internal energy.

An ideal gas occupies a volume of 2m^(3) at a pressure of 3xx10^(6) p,a the energy of the gas is :

An ideal gas occupies a volume of 2m^(3) at a pressure of 3xx10^(6) p,a the energy of the gas is :

A gas is compressed at a constant pressure of 50 N//m^(2) , from a volume 10 m^(3) to a volume of 4 m^(3) . 100 J of heat is added to the gas then its internal energy.

A gas is compressed at a constant pressure of 50N//m^(2) from a volume 10m^(3) to a volume of 4m^(3) . 100J of heat is added to the gas then its internal energy is

An ideal gas at 17^(@)C has a pressure of 760 mm of Hg. The gas is compressed at constant temperature until its volume becomes halved. The final pressure of the gas will be –

A gas is compressed at a constant pressure of 50N/m^(2) from a volume 10m^(3) to a volume of "4m^(3) .If 100J of heat is added to the gas,then its internal energy in joules is ................