" siabatic expansion,a gas obeys "vT^(3)=" constant The gas must be "

During an adiabatic expansion, a gas obeys VT^(3) = constant. The gas must be

During an adiabatic expansion, a gas obeys VT^(3) = constant. The gas must be

An ideal gas obeys:

In a particular experiment, a gas undergoes adiabatic expansion satisfying the equation VT^(3)= constant. The ratio of specific heats Y is ?

In a particular experiment, a gas undergoes adiabatic expansion satisfying the equation VT^(3)= constant. The ratio of specific heats is g then the value of 3g is

An ideal gas is expanding such that PT^(3)= constant . The coefficent of volume expansion of the gas 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)

In a thermodynamic process helium gas obeys the law TP^(-2//5) = constant. The heat given to the gas when the temperature of 2 moles of the gas is raised from T to 4T (R is the universal gas constant) 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 idea gas is found to obey an additional gas law VT = constant. The gas is initially at temperature T and pressure P . When it is heated to the temperature 2T , the resulting pressure is