Two cylinders fitted with pistons contain equal amount of an ideal diatomic gas at 300K. The piston of A is free to move, while that of B is held fixed. The same amount of heat is given to the gas in each cylinder. If the rise in temperature of the gas in A is 30K, then the rise in temperature of gas B is

Two cylinders A and B fitted with pistons contain equal amounts of an ideal diatomic gas at 300K. The piston of A is free to move, while that B is held fixed. The same amount of heat is given to the gas in each cylinder. If the rise in temperature of the gas in A is 30K, then the rise in temperature of the gas in B is

Two cylinders A and B fitted with pistons contain equal amounts of an ideal diatomic gas at 300K. The piston of A is free to move, while that B is held fixed. The same amount of heat is given to the gas in each cylinder. If the rise in temperature of the gas in A is 30K, then the rise in temperature of the gas in B is

When a certain amount of heat is supplied to a diatomic gas at constant volume, rise in temperature is T_(0) . When same heat is supplied to the gas at constant pressure, find the rise in temperature

A cylinder fitted with a piston contains an ideal monoatomic gas at a temperature of 400K . The piston is held fixed while heat DeltaQ is given to the gas, it is found the temperature of the gas has increased by 20K . In an isobaric process the same DeltaQ heat is supplied slowely to it. Find the change in temperature in the second process?

two cylinders contain same amount of ideal monatomic gas. Same amount of heat is given to two cylinders. If temperature rise incylinder A is T_0 then temperature rise in cylinder B will be

Some gas at 300K is enclosed in a container. Now the container is placed on a fast moving train. While the train is in motion, the temperature of the gas

Find the average momentum of molecules of hydrogen gas in a container at temperature 300K .

Find the average momentum of molecules of hydrogen gas in a container at temperature 300K .

Two moles of an ideal monoatomic gas occupy a volume 2V at temperature 300K, it expands to a volume 4V adiabatically, then the final temperature of gas is

A vertical thermally insulated cylinder of volume V contain n moles of an ideal monoatomic gas under a weightless piston. A load of weight W is placed on the piston as a result of which the piston is displaced. If the initial temp of the gas is 300K , area of piston is A and atmospheric pressure P_(0) . (take W=P_(0)A ). Determine the value of final temperature of the gas