`{:(,"Column-I",,"Column-II"),("(P)","If volume of gas molecules be negligible",,(1)(P+a/V_(2))(V-b)=RT),("(Q)","At very high pressure",,"(2)PV=RT+Pb"),("(R)","At low pressure and high temperature",,(3)PV=RT-a/V),("(S)","van der Waal's gas",,"(4)PV=RT"):}`

{:(,"Coloumn-I",,"Column-II"),("(a)","At low pressure",,(p)Z=1+(pb)/(RT)),("(b)","At high pressure",,(q)Z=1-a/(V_(m)RT)),("(c)","At low density of gas",,"(r)Gas is more compressible then ideal gas"),("(d)",for H_(2) and He at 0^(@) C,,"(s)Gas is less compressible than ideal gas"):}

{:(,"List-I(Van der Waals equation)",,"List-II(given by)"),("(a)","high pressure and low temperature",,"(p)PV=RT+Pb"),("(b)","low pressure",,(q)PV=RT-a//V),("(c)","Force of attraction is negligible",,"(r)PV=RT+aV"),("(d)","volume of molecule is negligible",,"(s)[P+a/V^(2)](V-b)=RT):}

For a monotomic gas at temperature T, match the following columns. {:(,"ColumnI",, "ColumnII"),((A),"Speed of sound", (p),sqrt(2RT//M)),((B),"RMS speed of gas molecules",(q),sqrt(8RT//piM)),((C),"Average speed of gas molecules",(r),sqrt(3RT//M)),((D),"Most probable speed of gas molecules",(s),sqrt(5RT//3M)):}

At low pressure, if RT=2sqrt(a.p), then the volume occupied by a real gas is :

Using van der Waals equation (P+(a)/(V^(2)))(V-b)=RT , answer the following questions: At high pressure, the van der Waals equation gets reduced to