Boyle temperature of vaiour gases are given below :
`{:("Gas",T_(B)(K),),(H_(2),117,),(He,23,),(CH_(4),498,),(O_(2),406,):}`
Which gas can be liquefied most easily ?

Boyle's temperature of four gases are given below: {:("Gases"," "A,B,C,D,),(T_(B),120K,25K,500K,410K,):} Which gas can be liquefied most easily ?

The van der waals constant 'a' for different gases are given below : {:("Gas",""a("atm lit"^(-2)"mol"^(-2))),(O_(2)" ",1.36),(N_(2),1.39),(CH_(4),2.25),(NH_(3),4.17):} The gas that can be most easily liquefied is

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) . If 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 (T_(c)) . The pressure required to liquefy a gas at this temperature is called the critical pressure (P_(c)) . The volume occupied by one mole of the substance at the critical temperature and pressure is called critcal 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) {:("Gases",A,B,C,D,),(P_(c) (atm),2.2,14,35,45,),(T_(c) (K),5.1,33,127,140,):} Which of the above gases cannot be liquefied at 100 K and 50 atm ?

Gases posses characteristic critical temperature which depends upon the magnitude of intermolecular forces between the particles. Following are the critical temperatures of some gases. {:("Gases",H_(2),He,O_(2),N_(2)),("Critical temperature in kelvin",33.2,5.3,154.3,126):} From the above data what would be the order of liquefaction of these gases ? Start writing the order from the gas liquefying first

Critical temperatures for A, B, C and D gases are 25^(@)C, 10^(@)C, -80^(@)C and 15^(@)C respectively. Which gas will be liquefied more easily ?

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) . If 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 (T_(c)) . The pressure required to liquefy a gas at this temperature is called the critical pressure (P_(c)) . The volume occupied by one mole of the substance at the critical temperature and pressure is called critcal 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) Gas A and can be liquefied at room temperature by applying pressure but gas B cannot. This reflects:

The values of van der Waal's constant 'a' for the gases O_(2),N_(2),NH_(3) and CH_(4) 1.36,1.39,4.17,2.253 L^(3) atm "mole"^(-2) respectively. The gas which can most easily be liquefied is: