A gas can be liquefied by 

The essential conditions for liquefaction of gases were discovered by Andrews in 1869 as a result of his study of pressure-volume-temperature relationship for CO_(2) . It was found that above a certain temperature, it was impossible to liquefy a gas whatever the pressure was applied. The temperature below which the gas can be liquefied by the application of pressure alone is called critical temperature (Tc). The pressure required to liquefy a gas at this temperature is called the critical pressure (Pc). The volume occupied by one mole of the substance at the critical temperature and pressure is called critical volume. Critical constants are related with van der waals' constant as follows: V_( c) = 3b, P_( c) =a/(27b^(2)), T_( c) =(8a)/(27 Rb) The values of critical volumes of four gases A, B, C and D are 0.025L, 0.312L, 0.245L and 0.432L respectively. The gas with larger molecular diameter will be :

A gas can be liquefied if :

Consider following statements : (A): The gas whose critical temperature is above room temperature can be liquified by applying sufficient pressure to the gas. (B): The gas whose critical temperature is below room temperature can be liquified by the temperature below T_c . Select correct statement

In the reaction 4NaCl+MnO_(2)+4H_(2)SO_(4)toMnCl_(2)+4NaHSO_(4)+2H_(2)O+'X' Then the correct statement regarding 'X' are I) It is a greenish yellow coloured gas . II) It can also be prepared by Deacons process III) It can be liquefied into greenish yellow liquid which boils at 239K

Boyle's temperature of various gases are given below: Which can be liquefied most easily

NH_(3) can be liquefied at ordinary temperature without the application of pressure. But O_(2) cannot, because

Critical temperatures of ammonia and carbondioxide are respectively 405.5 and 304.1K. Cooling from 450K, which gas can be liquify first? Why?

The gas which can not be liquified is