The value of the gas constant (R) calculated from the perfect gas equation is 8.32 Joule/gm mol K , whereas its value calculated from the knowledge of `C_(P)`and`C_(V)`of the gas is 1.98 cal/gm mole K . From this data, the value of J is

The molar specific heat of a gas at constant volume is 20 Joule mol^(-1)K^(-1) . The value of gamma for it will be

The value of universal gas constant is 8.3J/mole-k, The mean kinetic energy of 32gm of oxygen at .-73^(@)C will be

Discuss the significance of gas constant R. Calculate its value of joules K^(-1)"mol"^(-1) .

From the relation PV = RT, calculate the value of the constant R for one gram mole of an ideal gas (in cal//K )

Four moles of an ideal gas expand isothermally from 1 litre to 10 litres are 300 K. Calculated the change in free energy of the gas (R 8.314 JK^(-1)mol^(-1)) .

A gas expands adiabatically at constant pressure such that its temperature Tprop(1)/(sqrt(V)) , the value of C_(P)//C_(V) of gas is

An ideal gas (C_(P)//C_(V)=gamma) is expanded so that the amount of heat transferred to the gas the is equal to the decrease in its internal energy . What is the magnitude of work performed by one mole of the gas when its volume increase eight times if the initinal temperature of the gas is 300 K ? C_(V) for the gas is 1.5R .( R=2 cal//mol//K )

The specific heats of an ideal gas at constant volume and constant pressure are respectively 4.98 and 6.96 cal mol^(-1)K^(-1) . If the molecular weight of the gas be 32, then calculate the root-mean square speed of the molecules of the gas at 120^(@)C, (1 cal=4.2J)

The molar specific heats of an ideal gas at constant volume and constant pressure are respectively 4.98 and 6.96 cal mol^(-1) K^(-1) . If the molecular weight of the gas be 32, then calculate the root means square speed of the molecule of the gas at 120^@ C . (1 cal = 4.2 J)