A thermally insulated vessel with gaseous nitrogen at a temperature of `27^(@)C` moves with velocity `100 m//s^(-1)`. How much (in percentage) and in what way will the gas pressrue change if the vessel is brought to rest suddenly ?

A thermally insulated vessel containing a gas, whose molar mas is equal to M and specific heat capacity ratio gamma , moves with a velocity V . Find the temperature rise when the vessel is stopped suddenly.

A thermally insulated vessel containing diatomic gas of molar mass M is moving with velocity v. the temperature of gas is T. if it is suddenly stopped, then

Find the rate v with which helium flows out of a thermally insulated vessel into vacuum through a small hole. The flow rate of the gas inside the vessel is assumed to be negligible under these conditions. The temperature of helium in the vessel is T = 1.000 K .

The rms velocity of a gas kept at a temperature of 27^(@)C in a vessel is 61m//s . The vessel is filled with [R = 8.31 J//mol K ]

A diatomic gas of molecular mass 40 g/mol is filled in rigid container at temperature 30^@ C . It is moving with velocity 200 m/s. If its is suddenly stopped, the rise in the temperature of the gas is

A vessel of capacity 400 cm^(3) contains hydrogen gas at 1 atm pressure at 7^(@)C . In order to expel 28.57 cm^(3) of the gas at the same pressure, to what temperature the vessel should be heated ?

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 ?