At a low pressure and at a particular temperature, the pressure of 1 mol of an ideal gas is____ that of 1 mol real gas.

At a particular temperature and pressure, if the number of moles of an ideal gas is increased by 50% then-

What is the volume of 1 mol of any gas at STP?

At a given temperature and pressure, 1 mol of an ideal gas occupies a volum eof 20.8 L for 1 mol of a real gas at the same temperature and pressure- (i) Z will be equal to 1 if the volume of the real gas is (ii) Z will be greater than 1 if the volume of the real gas is (iii) Z will be less than 1 if the volume of the real gas is.

The pressure of real gas is less than that of ideal gas because

At a constant pressure the amount of heat required to raise the temperature of 1 mol of an ideal gas by 10^(@)C is x kJ. If the same increase in temperature were carried out at constant volume, then the heat required would be-

At a given temperature and pressure, the volume of 1 mol of an ideal gas is 10 L. at the same temperature and pressure, the volume of 1 mol of a real gas is VL. At this temperature and pressure, if the compressibility factor of the real gas is greater than 1, then -

Compressibility factor of a real gas at 0^(@)C and 100 atm pressure is 0.927. at this temperature and pressure, how much of this real gas is required to fill a vessel of 100 L [molar mass= 40g*mol^(-1) ] ?

Give the expression of kinetic gas equation for n mol of ideal gas.

Explain from vander Waal's equation that at very low pressure and at very high temperature the real gases behave as an ideal gases.

When a flask of fixed volume is filled with (x)/(2) mol of an ideal gas A at a constant temperature, the pressure of the gas becomes 2 atom. Adint 2 y mol of another ideal gas B to the flask at the same temperature causes the pressure of the system to increase to 4.0 atm.