A gas is compressed from `10 m^3` volume to `4m^3` volume at constant pressure of 50 `N//m^(2)`. Then the gas is heated by giving it 100 Joules of energy. The internal energy of the gas will

A gas is compressed from a volume of 2m3 to a volume of 1 m^3 at a constant pressure of 100 N/ m^2 . Then it is heated at constant volume by supplying 150 J of energy. As a result, the internal energy of the gas:

3000 J of heat is given to a gas at a constant pressure of 2xx10^(5)N//m^(2) .If its volume increase bny 10 litres during the process find the change in the intrnal energy of the gas.

3000 J of heat is given to a gas at a constant pressure of 2xx10^(5)N//m^(2) .If its volume increase bny 10 litres during the process find the change in the intrnal energy of the gas.

A gas expands from a volume of 1 m^(3) to a volume of 2m^(3) against an external pressure of 10^(5) N m^(-2) . The work done by the gas will be

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 50 N/ m^2 from a volume of 10m^3 to a volume of 8 m^3 . Energy of 200 J is then added to the gas by heating. Its internal energy is

A gas is compressed at a constant pressure of 50 N/ m^2 from a volume of 10m^3 to a volume of 8 m^3 . Energy of 200 J is then added to the gas by heating. Its internal energy is