A fixed mass of an ideal gas is compressed in such a manner that its pressure and volume can be related as `P^3V^3` = constant. During this process, temperature of the gas is.

An ideal gas expands in such a manner that its pressure and volume can be related by equation PV^(2) = constant. During this process, the gas is

A gas undergoes a process in which its pressure P and volume V are related as VP = constant. The bulk modulus of gas for this process

For an ideal gas, the heat of reaction at constant pressure and constant volume are related as

A gas undergoes a process in which its pressure P and volume V are related as VP^(n) = constant. The bulk modulus of the gas in the process is:

The energy density u/V of an ideal gas is related to its pressure P as

Can the temperature of a gas increased keeping its pressure and volume constant ?

A monoatomic gas undergoes a process in which the pressure (P) and the volume (V) of the gas are related as PV^(-3)= constant. What will be the molar heat capacity of gas for this process?

One mole of an ideal monotomic gas undergoes a linear process from A to B in which its pressure p and its volume V change as shown in figure. The maximum temperature of the gas during this process is

In a process, temperature and volume of one mole of an ideal monoatomic gas are varied according to the relation VT= K, where K is a constant. In this process the temperataure of the gas is increased by DeltaT . The amount of heat absorbed by gas is (R is gas constant).

In a process, temperature and volume of one mole of an ideal monoatomic gas are varied according to the relation VT= K, where K is a constant. In this process the temperataure of the gas is increased by DeltaT . The amount of heat absorbed by gas is (R is gas constant).