A gas can be liquefied at temperature T and pressure P provided

A gas can be liquefied at temperature T and pressure P if-

A real gas can be liquefied by ?

The critical temperature and the critical pressure of a gas are T_(c) and P_(c) , respectively. If the gas exists at a temperature of T and a pressure P, then under which of the following conditions will the gas not be liquefied? (i) T gt T_(c) , P gt P_(c) (ii) T=T_(c),PgtP_(c) (iii) T=T_(c),PltP_(c) (iv) T lt T_(c),P=P_(c)

A gas at certain volume and temperature has a pressure equal to 0.75 m of Hg. If the mass of the gas is doubled at the same volume and temperature, its new pressure will be-

The temperature of an ideal gas is 340 K. the gas is heated to a temperature at constant pressure. As a result, its volume increases by 18%. What is the final temperature of the gas?

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 -

A vessel contains 1 mol of O_2 gas (specific molar mass 32) at a temperature T. pressure of this gas is p. In another idential vessel,1 mol of He gas (specific molar mass 4) is kept at a temperature 2T. The pressure of this gas will be

5 g of unknown gas has pressure P at a temperature TK in a vessel. On increasing the temperature by 50^@C , 1 g of the gas was given out to maintain the pressure P. The original temperature was

Volume of a gas is doubled by raising its temperature at constant pressure . Initial temperature of the gas was 13^@C . Find the final temperature.