n moles of an ideal gas at temperature, T (in kelvin) occupy VL of volume, exerting a pressure of P atmospheres. What is the concentration (in mole`//L`) ?

One mole of an ideal gas at standard temperature and pressure occupies 22.4 L (molar volume). IF the size of the hydrogent molecule is about 1A. What is the ratio of molar volume to the atomic volume of a mole of hydrogen?

One mole of an ideal monoatomic gas at temperature T and volume 1L expands to 2L against a constant external pressure of one atm under adiabatic conditions, then final temperature of gas will be:

One mole of an ideal monoatomic gas at temperature T and volume 1L expands to 2L against a constant external pressure of one atm under adiabatic conditions, then final temperature of gas will be:

Calculate the moles of an ideal gas at pressure 2 atm and volume 1 L at a temperature of 97.5 K

Calculate the temperature of 2.0 moles of a gas occupying a volume of 5.0 litres at 2.46 atmosphere.

One mole of an ideal gas is expanded from a volume of 3L to 5L under a constant pressure of 1 atm. Calculate the work done by the gas.

If two mole of an ideal gas at 546 K occupies a volume of 44.8 litres , the pressure must be :

Two moles of a gas at temperature T and volume V are heated to twice its volume at constant pressure. If (C _(p))/(C _(v)) = gamma then increase in internal energy of the gas is-

Draw the P-T and V-T diagrams of an isochoric process of n moles an ideal gas from pressure P_(0) volume V_(0) to pressure 4P_(0) , indicating the pressures and temperatures of the gas in the initial and the final states.

One mole of an ideal gas at pressure P_(0) and temperature T_(0) is expanded isothermally to twice its volume and then compressed at constant pressure to (V_(0) // 2) and the gas is brought bac to original state by a process in which P alpha V (pressure is directly proportional to volume). The correct temperature of the process is