For an ideal gas , number of moles per litre in terms of its pressure , temperature and gas constant is

For an ideal gas, number of moles per litre in terms of its pressure P, gas constant R and temperature T is

Out of the three states of matter, only the gases have most of the physical properties common. They neither have definite shapes nor volumes. Upon mixing they form homogeneous mixture irrespective of their nature and can also be compressed on applying pressure. In addition to these, the gases obey different gas laws such as Boyle's Law, Charles's Law, Dalton's Law of partial pressures, Graham's Law of diffusion etc. Based upon these laws, ideal gas equation PV = nRT has been derived. For an ideal gas, number of moles per litre in terms of its pressure P, gas constant R and temperature T is :

For an ideal gas the fractional change in its volume per degree rise in temperature at constant pressure is equal to [T is absolute temperature of gas]

What is an ideal (or perfect) gas ? Under what condition of pressure and temperature can a gas be assumed as an ideal gas ? Determine the gas constant for one gram molecule of a gas.

In a monatomic ideal gas the pressure and the volume relation follows the equation given by P^6V^5= constant . The gas contains n number of moles. Find the amount of heat required to increase the temperature of gas by 5 kelvin.

A container is filled with 20 moles of an ideal diatomic gas at absolute temperature T. When heat is supplied to gas temperature remains constant but 8 moles dissociate into atoms. Heat energy given to gas is

A container having 3 mole of ideal gas occupies 60 litres at pressure P and temperature T. If 0.1 mole of gas is introduced at same P and T in container the change in volume will be ________ litre.

At constant volume, for a fixed number of moles of a gas, the pressure of the gas increases with the rise in temperature due to

An ideal gas is found to obey the law V^2T = constant . The initial pressure and temperature are P_0 and T_0 . If gas expands such that its pressure becomes (P_0)/4 , then the final temperature of the gas will be

In certain region of space there are n number of molecules per unit volume. The temperature of the gas is T. The pressure of the gas will be (k = Boltzmann's constant and R = universal gas constant)