One mole of an ideal gas goes form an initial stateA to final state B via two processes : It first undergoes iosthermal expansion from vluem V to 3V and then its volume is reduced from 3V to V at constatn pressure.The correct P-V diagram rpresenting the two processes is

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 is enclosed in a cylinder with a movable frictionless piston. Its initial thermodynamic state at pressure P_i=10^5 Pa and volume V_i=10^-3m^3 changes to a final state at P_f=(1//32)xx10^5Pa and V_f=8xx10^-3m^3 in an adiabatic quasi-static process, such that P^3V^3=constant. Consider another thermodynamic process that brings the system form the same initial state to the same final state in two steps: an isobaric expansion at P_i followed by an isochoric (isovolumetric ) process at volume V_r. The amount of heat supplied to the system i the two-step process is approximately

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.

One mole of an ideal gas is taken from state A to state B by three different processes (a) ACB , (b) ADB and (c ) AEB as shown in the P - V diagram. The heat absorbed by the gas is

One mole of an ideal gas is taken from state A to state B by three different processes (a) ACB , (b) ADB and (c ) AEB as shown in the P - V diagram. The heat absorbed by the gas is

One mole of an ideal monatomic gas undergoes a linear process from A to B , in which is pressure P and its volume V change as shown in figure . The absolute temperature T versus volume V for the given process is

One mole of an ideal monatomic gas undergoes a linear process from A to B , in which is pressure P and its volume V change as shown in figure . The absolute temperature T versus volume V for the given process is

If n moles of an ideal gas undergoes a thermodynamic process P=P_0[1+((2V_0)/V)^2]^(-1) , then change in temperature of the gas when volume is changed from V=V_0 to V=2V_0 is [Assume P_0 and V_0 are constants]

One mole of a monoatomic gas undergoes a linear process A rarr B in P - v diagram. The volume of the gas when the process turns from an endothermic to an exothermic one is