Consider the van der Waals constants, a and b, for the following gases.
`{:("Gas","Ar","Ne","Kr","Xe"),(a//"(""atm dm"^(3)"mol"^(-2)")",1.3,0.2,5.1,4.1),(b//"("10^(-2)"dm"^(6)"mol"^(-1)")",3.2,1.7,1.0,5.0):}`
Which gas is expected to have the highest critical temperature?

The Van der Waals constants for two gases A and B are as follows : {:("Gas",a("atm L"^(2)" mol"^(-2)),b("L mol"^(-1))),(" A"," 1.63"," 0.0326"),(" B"," 3,72"," 0.0521"):} Which of these (i) is more easily liquefied? (ii) has larger molecular size?

van der Waal's constants for gases A,B and C are as follows: {:("Gas ",a("kPa "dm^(6)"mol"^(-2)),B(L//mol)),(A,410,0.027),(B,1215,0.03),(C,608,0.032):} Which of the following options contain correct arrangement of "gas with highest critical temperature" ad "gas with most ideal behaviour around 1850K " respectively?

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 van der Waals constants for two gases are as follows : {:("Gas",a(atm L^(2)mol^(-2)),b(L Mol^(-1))),(X,1.39,0.0391),(Y,3.59,0.0427):} Which of them is more easily liquefiable and which has greater molecular size ?

Consider the following statements If th van der Waals' parameters of two gases are given as {:(,a//dm^(6)"bar"mol^(-2),b//dm^(3)mol^(-1),,),(GasA,6.5,0.056,,),(GasB,18.0,0.011,,):} then which of the following statements is//are correct ? .

The vander Waals constants for gases A,B and C are as follows Gas a//dm^(6)kPa mol^(-2) b//dm^(3) mol^(-1) A 405.3 0.027 B 1215.9 0.030 C 607.95 0.032 Which gas has the highest critical temperature.

The van der Waals constant for gases A , B , and C are as follows Answer the following: Which gas has the highest critical temperature?