In an ideal gas at temperature T, the average force that a molecule applies on the walls of a closed container depends on T as `T^q.` A good estimate for

The average momentum of a molecule in an ideal gas depends on

Consider an ideal gas at pressure p, volume V and temperature T. The mean free path for molecules of the gas is L. If the radius of gas molecules, as well as pressure, volume and temperature of the gas are doubled, then the mean free path will be

An insulated system contains 4 moles of an ideals diatomic gas at temperature T when a gas is dissociated in to atoms and the temperature remained constant then the relaton between Q and T is R = universal gas constant

For an ideal gas the graph between PV/RT and T is

A gas of temperature T_0 is enclosed in a container whose walls are (initially) at temperature T. Now, the gas exerts a higher pressure on the walls of the container when

The velocities of sound in an ideal gas at temperature T_(1) and T_(2) K are found to be V_(1) and V_(2) respectively. If ther.m.s velocities of the molecules of the same gas at the same temperatures T_(1) and T_(2) are v_(1) and v_(2) respectively then

A vessel of volume V contains a mixture of ideal gases at temperature T. The gas mixture contains n _(1), n _(2) and n _(3) moles of three gases. Assuming ideal gas system, the pressure of the mixture is