A vessel contains a gas under a pressure of `5 xx 10^(5)pa`. If `3//5` of the mass of the gas is flown out, What will be the gas pressure if the temperature being maintained constant,

A glass container encloses a gas a pressure of 8 xx 10^(5) pa and 300 K temperature. The container walls can bear a maximum pressure of 10^(6) Pa. If the temperature of container is gradually increased, find the temperature at which the container will break.

A glass container encloses a gas a pressure of 8 xx 10^(5) pa and 300 K temperature. The container walls can bear a maximum pressure of 10^(6) Pa. If the temperature of container is gradually increased, find the temperature at which the container will break.

A vessel is filled with an ideal gas at a pressure of 10 atmospheres and temp 27^(0)C . Half of the mass of the gas is removed from the vessel the temperature of the remaining gas is increased to 87^(0)C . Then the pressure of the gas in the vessel will be

A closed vessel 10L in volume contains a diatomic gas under a pressure of 10^5N//m^2 . What amount of heat should be imparted to the gas to increase the pressure in the vessel five times?

A closed vessel 10L in volume contains a diatomic gas under a pressure of 10^5N//m^2 . What amount of heat should be imparted to the gas to increase the pressure in the vessel five times?

A vessel is filled with an ideal gas at a pressure of 10 atm and temperature 27^@C . Half of the mass of the gas is removed from the vessel and temperature of the remaining gas is increased to 87^@C . Then, the pressure of the gas in the vessel will be

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

Container A holds an ideal gas at a pressure 1 xx10^5 Pa and at 300 K. Container B whose volume is 4 times the volume of A has the same ideal gas at 400 K and at a pressure of 5xx10^5 The valve V is adjusted to allow the pressure to equalize, but the temperature of each container is kept constant at the initial value, then the pressure in the two containers is :

Container A holds an ideal gas at a pressure 1 xx10^5 Pa and at 300 K. Container B whose volume is 4 times the volume of A has the same ideal gas at 400 K and at a pressure of 5xx10^5 The valve V is adjusted to allow the pressure to equalize, but the temperature of each container is kept constant at the initial value, then the pressure in the two containers is :