The following sets of values for `C_(v)` and `C_(p)` of an ideal gas have been reported by different students. The units are cal `"mole"^(-1)K^(-1)`. Which of these sets is most reliable?

The kinetic enerrgy of 4 mole sof nitrogen gas at 127^(@)C is (R=2" cal "mol^(-1)K^(-1))

2 mol of an ideal gas at 27^(@)C temperature is expanded reversibly from 1L to 10L . Find entropy change (R = 2 cal mol^(-1) K^(-1))

V vs T curves at different pressures P_(1) and P_(2) for an ideal gas are shown below: Which one of the following is correct?

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)

The specific heats, C_(P) and C_(V) of a gas of diatomic molecules, A are given (in units of Jmol^(-1) K^(-1) ) by 29 and 22 , respectively. Another gas of diatomic molecules , B has the corresponding values 30 and 21. if they are treated as ideal gases, then :

When 5 moles of an ideal gas is expended at 350 K reversibly from 5 L to 40 L, then the entropy change for the process is (R = 2 cal mol^-1 K^-1 )

Let (C_v) and (C_p) denote the molar heat capacities of an ideal gas at constant volume and constant pressure respectively . Which of the following is a universal constant?

1 mol of an ideal gas undergoes different thermodynamical process in P-V digram given below : If temperature at point C is T K then :

One mole of an ideal gas at 300K is expanded isothermally from an inital volume of 1 litre to 10 litres. The DeltaE for this process is (R=2cal mol^(-1)K^(-1))

The molar heat capacity of a gas at constant volume is found to be 5 cal mol^(-1) K^(-1) . Find the ratio gamma = C_p/C_v for the gas. The gas constant R=2 cal mol^(-1) K^(-1).