One mole of an ideal gas at temperature `T_` expands slowly according to the law `p/V=` constant.
Its final temperature is `T_2`. The work done by the gas is

One mole of an ideal monoatomic gas at temperature T_0 expands slowly according to the law p/V = constant. If the final temperature is 2T_0 , heat supplied to the gas is

One mole of an ideal monoatomic gas at temperature T_0 expands slowly according to the law p/V = constant. If the final temperature is 2T_0 , heat supplied to the gas is

One mole of an ideal monoatomic gas at temperature T_0 expands slowly according to the law p/V = constant. If the final temperature is 2T_0 , heat supplied to the gas is

One mole of an ideal monatomic gas at temperature T_0 expands slowly according to the law P = kV (k is constant). If the final temperature is 4T_0 then heat supplied to gas is

One mole of an ideal gas (mono-atomic) at temperature T_0 expands slowly according to law P^2 = c T (c is constant). If final temperature is 2T_0 heat supplied to gas is:

An ideal gas expands according to the law P^(2) V = constant . The internal energy of the gas

If one mole of gas doubles its volume at temperature T isothermally then work done by the gas is

One mole of an ideal gas at 25^(@)C expands in volume from 1.0 L to 4.0 L at constant temperature. What work (in J) is done if the gas expands against vacuum (P_("external") = 0) ?

Two moles of a diatomic ideal gas is taken through pT= constant. Its temperature is increased from T to 2T. Find the work done by the system?