A vessel of volume `V=0.03m^(3)` contains an ideal gas at `0^(@)C`. After a portion is let out, the presure in the vessel decreases by `Deltap=0.78atm` (the temperature remaining constant). Find the mass of the released gas. The density under normal conditions is `rho_(0)=1.3kg m^(-3)`

A vessel of volume V contains ideal gas at the temperature T0^(@)C . After a portion of the gas the been let out , the pressure in the vessel decreased by Deltap ( the temperature remaining constant). . Find the mass ofthe re.leased gas.The gas density under the noraml conditions rho

A vessel of volume V = 30 1 contains ideal gas at the temperature 0 ^@ C . After a portion of the gas has been let out, the pressure in the vessel decreased by Delta p = 0.78 atm (the temperature remaining constant). Find the mass of the released gas. The gas density under the normal conditions rho = 1.3 g//1 .

A vessel of volume 8.0xx10^(-3) m^(3) contains an ideal gas at 300K and 200kPa. Calulate the amount of the gas (in moles) leaked assuming that the tenperature remains constant.

A perfectly conducting vessel of volume V = 0.4m^3 contains an ideal gas at constant temperature T = 273 K . A portion of the gas is let out and the pressure of the falls by Delta p = 0.24 atm . (Density of the gas at (STP) is rho = 1.2 kg//m^3 ). Find the mass of the gas which escapes from the vessel.

A vessel of volume 50 litre contains an ideal gas at 0^@ C . A portion of the gas is allowed to leak out from it under isothermal conditions so that pressure inside falls by 0.8 atmosphere. The number of moles of gas leaked out is nearly:

A vessel of vossel of volume 8.0 xx 10^(-3) m^(-3) contains ideal gas at 300 K and 200kPa The gas is allowed to leak till the pressure falls to 125 kPa Calculate the mole of gas leaked out if temperature remains constant Assume ideal nature .

A vessel of volume 8.0 xx 10^(-3) m^(3) contains an ideal gas at 300 K and 210 kPa . The gas is allowed to leak till the pressure falls to 135 kPa . Calculate the amount of the gas (in moles) leaked assuming the temperature to remain constant.

A vessel of volume 8.0 xx 10^(-3)m^(3) contains an ideal gas at 300 K and pressure 200 kPa . The gas is allowed to leak till the pressure falls to 125 k Pa . Calculate the amount of the gas (in moles) leaked assuming that the temperature remains constants.

A vessel of volume V_(0) contains an ideal gas at pressure p_(0) and temperature T. Gas is continuously pumped out of this vessel at a constant volume-rate dV/dt=r keeping the temperature constant, The pressure inside the vessel. Find (a) the pressure of the gas as a function of time,(b) the time taken before half the original gas is pumped out.

A closed vessel of fixed volume contains a mass m of an ideal gas, the root mean square speed being v. Additional mass m of the same gas is pumped into the vessel and the pressure rises to 2P, the temperature remaining the same as before. The root mean square speed of the molecules now is :