A gas at initial temperature T undergoes sudden expansion from volume V to 2V. Then -

During an experiment an ideal gas is found to obey an additional law V_(2)P = constant. The gas is initially at temperature T and volume V. When it expands to a volume 2V, the temperature becomes :

During experiment an ideal gas is found to obey an additional law VP^(2)= constant. The gas is initially at temperature T and volume V, when it expands to volume 2V, the resulting temperature is

An ideal gas is found to obey and additional law VP^2 = constant. The gas is initially at temperature T and volume V . When it expands to a volume 2 V , the temperature becomes

During an experiment, an ideal gas is found to obey an additional law VP^2=constant, The gas is initially at a temprature T, and volume V. When it expands to a volume 2V, the temperature becomes…….

One mole of an ideal gas goes from an initial state A to final state B via two processs : It first undergoes isothermal expansion from volume V to 3 V and then its volume is reduced from 3 V to V at constant pressure. The correct P-V diagram representing the two process in (figure)

During an experiment, an ideal gas is found to obey a condition Vp^2 = constant. The gas is initially at a temperature (T), pressure (p) and volume (V). The gas expands to volume (4V).

An ideal gas is found to obey an additional laq P^(2) V = constant. The gas is initially at temperature volume V . When it expands to a volume 2V , the temperature becomes-

Two samples A and B of a gas are initially at the same temperature and pressure are compressed from volume V_1 to V/2 (A isothermally and B adiabatically). The final pressure is