A sample of gas in a box is at pressure `P_0` and temperature `T_0`. If number of molecules is doubled and total kinetic energy of the gas is kept constant, then final temperature and pressure will be

The kinetic energy of 1 g molecule of a gas, at normal temperature and pressure, is

The kinetic energy of 1 g molecule of a gas, at normal temperature and pressure, is

A box contains N molecules of a perfect gas at temperature T_(1) and temperature P_(1) . The number of molecule in the box is double keeping the total kinetic energy of the gas same as before. If the new pressure is P_(2) and temperature T_(2), then

A box contains N molecules of a perfect gas at temperature T_(1) and temperature P_(1) . The number of molecule in the box is double keeping the total kinetic energy of the gas same as before. If the new pressure is P_(2) and temperature T_(2), then

A vessel contains N molecules of a gas at temperature T. Now the number of molecules is doubled, keeping the total energy in the vessel constant. The temperature of the gas is

A container has N molecules at absolute temperature T. If the number of molecules is doubled but kinetic energy in box remains the same as before, the absolute temperature of the gas is

A container has N molecules at absolute temperature T. If the number of molecules is doubled but kinetic energy in box remains the same as before, the absolute temperature of the gas is

A container has N molecules at absolute temperature T. If the number of molecules is doubled but kinetic energy in box remains the same as before, the absolute temperature of the gas is

A container has N molecules at absolute temperature T. If the number of molecules is doubled but kinetic energy in box remains the same as before, the absolute temperature of the gas is