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 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.

A gas expands in such a manner that its pressure and volume comply with the condition "PV"^2 = constant. Will the gas cool or get heated on expansion?

An ideal gas expands in such a way that PV^2 = constant throughout the process.

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

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:

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

When a polyatomic gas undergoes an adiabatic process, its temperature and volume are related by the equation TV^(n) =constant, the value of n will be

When a polyatomic gas undergoes an adiabatic process, its tempertaure and volume are related by the equation TV^(n) = constant, the value of n will be

An ideal diatomic gas is expanded so that the amount of heat transferred to the gas is equal to the decrease in its internal energy. The process can be represented by the equation TV^(n) = constant, where the value of n is

One mole of an ideal monatomic gas undergoes a process described by the equation PV^(3) = constant. The heat capacity of the gas during this process is