An ideal gas has pressure `p_(0)`, volumn `V_(0)` and temperature `T_(0)`. It is taken an isochoric process till its pressure is doubled. It is now isothermally expanded to get the original pressure. Finally , the gas is isobarically compressed to its original volume `V_(0)`. (a) Show the process on a p-V diagram. (b) What is the tempertaure in the isothermal part of the process? (c) What is the volumn at the end of the isothermal part of the process?

What is specific heat of a gas in an isothermal process ?

What is an isochoric process ? Write the first law of thermodynamics for an ideal gas.

An ideal gas is compressed to half its initial volume by means of several processes. Which of the process results in the maximum work done on the gas ?

Can change in internal energy of an ideal gas be a isothermal process ?

Three moles of an ideal gas (C_p=7/2R) at pressure, P_A and temperature T_A is isothermally expanded to twice its initial volume. It is then compressed at constant pressure to its original volume. Finally gas is compressed at constant volume to its original pressure P_A . (a) Sketch P-V and P-T diagrams for the complete process. (b) Calculate the net work done by the gas, and net heat supplied to the gas during the complete process.

An ideal monoatomic gas occupies volume 10^(-3)m^(3) at temperature 3K and pressure 10^(3) Pa. The internal energy of the gas is taken to be zero at this point. It undergoes the following cycle: The temperature is raised to 300K at constant volume, the gas is then expanded adiabatically till the temperature is 3K , followed by isothermal compression to the original volume . Plot the process on a PV diagram. Calculate (i) The work done and the heat transferred in each process and the internal energy at the end of each process, (ii) The thermal efficiency of the cycle.

Two moles of helium gas ( gamma = 5 / 3 ) are initially at 27^@C and occupy a volume of 20 litres . The gas is first expanded at constant pressure until the volume is doubled. Then it undergoes an adiabatic change until the temperature returns to its initial value. (a) Sketch the process in a p_V diagram. (b) What is the final volume and pressure of the gas ? (c) What is the work done by the gas?

In a process the density of a gas remains constant. If the temperature is doubled, then the change in the pressure will be :-

Consider two containers A and B containing identical gases at the same pressure, volume and temperature. The gas in container A is compressed to half of its original volume isothermally while the gas in container B is compressed to half of its original value adiabatically. The ratio of final pressure of gas in B to that of gas in A is

A given quantity of a ideal gas is at pressure P and absolute temperature T. The isothermal bulk modulus of the gas is