In a thermodynamic process hellium gas obeys the law `T//p^(2//5) =` constant. The heat given `n` moles of `He` in order to rise the temperature form `T` to `2T` is

In a thermodynamic process helium gas obeys the law TP^(-2//5) = constant,If temperature of 2 moles of the gas is raised from T to 3T , then

An ideal gas (gamma = 1.5) undergoes a thermodynamic process in which the temperature and pressure of the gas are related as T^(-1)P^(2) = constant. The molar heat capacity of the gas during the process is

One mole of an ideal monoatomic gas is taken through a polytropic process P^2T = constant. The heat required to increase the temperature of the gas by DeltaT is

In a thermodynamic process two moles of a monatomic ideal gas obeys PV^(–2)=constant . If temperature of the gas increases from 300 K to 400 K, then find work done by the gas (Where R = universal gas constant)

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

iIn isochoric process change ib internal energy of the gas in triangle T temperature rise for 2 mole is

n moles of an ideal gas undergo a process in which the temperature changes with volume as T=kv^(2) . The work done by the gas as the temperature changes from T_(0) to 4T_(0) is

A gas is found to obey the law P^(2)V = constant. The initial temperature and volume are T_(0) and V_(0^(@)) If the gas expands to a volume 3V_(0) , then

On mole of argon expands polytropically, the polytropic constant being 1.5, that is, the process proceeds according to the law pV^(1.5) = constant. In the process, its temperature change by Delta T = - 26 K . Find a. the amount of heat obtained by the gas. b. the work performed by the gas.

Two moles a monatomic gas in state A having critical pressure P_(0) and temperature 3 T_(0) is taken to a state B having pressure 3 P_(0) and temperature T_(0)//3 by the process of equation P^(2) T = constant. Then state B is taken to state C keeping the volume constant and it comes back to initial state A keeping temperature constant. a. Plot a P and T graph. (P on the y-axis and T on the x-axis). Find the net work done and heat supplied to the gas during the complete cycle.