A 15 g mass of nitrogen gas is enclosed in a vessel at a temperature `27^(@)`C. Amount of heat transferred to the gas, so that rms velocity of molecules is doubled, is about :
[Take `R=8.3 J//K` mole]

About 0.014 kg nitrogen is enclosed in a vessel at temperature of 27^(@)C How much heat has to be transferred to the gas to double the rms speed of its molecules ? (R = 2 cal//mol K)

A mass M = 15 g of nitrogen is enclosed in a vessel at temperature T = 300 K. What amount of heat has to be transferred to the gas to increase the root-mean-square velocity of molecules 2 times ?

A mass M = 15 g of nitrogen is enclosed in a vessel at temperature T = 300 K. What amount of heat has to be transferred to the gas to increase the root-mean-square velocity of molecules 2 times ?

0.014 kg of nitrogen is enclosed in a vessel at a temperature of 24^(@)C. At which temperature the rms velocity of nitrogen gas is twice it’s the rms velocity at 27^(@)C ? a) 1200 K b) 600 K c) 300 K d) 150 K

3 moles of a gas are present in a vessel at a temperature of 27^@C . What will be the value of R, the gas constant, in terms of the kinetic energy of the molecules of the gas ?

A gas of molecular mass 71 g mol^(-1) is enclosed in a vessel at a temperature of 30^@C . If the pressure exerted by the gas is 1065 mm of Hg, calculate the density of the gas.

2 moles of the same gas are enclosed in two containers A and B at 27^(@)C and at pressure 2 and 3 atms respectively. The rms velocity .

A gas is filled in a vessel at 27^@ C . To what temperature should it be heated in order that (1)/(3) rd of the gas may escape out of the vessel?

Calculate the temperature to which a gas at 0^(@)C be heated so that the rms speed of its molecules be doubled, keeping other factors constant.

The temperature of a gas is -68^(@)C . To what temperature should it be heated so that the average kinetic energy of the molecules be doubled