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)

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

P - V diagram of an ideal gas is shown. The gas undergoes from initial state A to final state B such that initial and final volumes are same. Select the correct alternative for given process AB.

The initial state of certain gas (P_(i)V_(i)T_(i)) .It undergoes expansion till its volume becomes V_(f) at constant temperature T. The correct plot of P-V diagram for it is

Two moles of an ideal gas have an initial kelvin temperature T_i and absolute pressure P_i the gas undergoes a reversible isothermal compression from an initial volume V_i to a final volume 0.5 V_i How much heat is exchanged with the environment? If heat is exchanged, is it absorbed or released?

n mole a perfect gas undergoes a cyclic process ABCA (see figure) consisting of the following processes. A to B : Isothermal expansion at temperature T so that the volume is doubled from V_1 to V_2 = 2V_1 and pressure changes from P_1 to P_2 B to C : Isobaric compression at pressure P_2 to initial volume V_1 C to A : Isochoric change leading to change of pressure from P_2 to P_1 . Total work done in the complete cycle ABCA is :

If n moles of an ideal gas are expanded is isothermally and reversibly from an initial state in which it has pressure p_(1) and volume V_(1) to the final state of volume V_(2) and pressure P_(2) , then