Pressure of 44.8 litre of 2 moles of an ideal gas at 546 K is:

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

The volume and pressure of two moles of an ideal gas are V and P respectively . Another 1 mole ideal gas having volume 2V exerts the same pressure P . Molecular mass of the second has is 16 times that of the first gas . compare the rms velocities of two gases .

The volume and pressure of two moles of an ideal gas and V and p respectively Another 1mol ideal gas having volume 2V also exerts the same pressure p. Molecular mass of the second gas is 16 times that of the first gas. Compare the rms velocities of the two gases.

70 cals of heat is required to raise the temperature of 2 moles of an ideal gas at constant pressure from 30^@C to 35^@C . Calculate the amount of heat required to raise the temperature of same gas through same range at constant volume. (R = 2 cal / mole ^@C )

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 -

Plot density vs pressure for a fixed mass of an ideal gas at a constant temperature.

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.

Final pressure is higher than initial pressure of a container filled with an ideal gas at constant temperature. What will be the value of equilibrium constant ?

The pressure exerted by 12 g of an ideal gas at temperature t^@C in a vessel of volume V litre is one atm.when the temperature is increased by 10 degree at the same volume.the pressure increases by 10% calculate the temperature t and volume v.(molecular weight of the gas =120).

At a given temperature and pressure, the volume fraction of an ideal gas is equal to its mole fraction in a mixture of ideal gases- it is true or false?