`{:("Column-I ","Column-II "),("A) Hydrogen gas (P = 200 atm, T = 273K) ","P) Compressibility factor "!= 1 ),("B) Hydrogen gas "(P ~~ 0,T = 273K) ,"Q) Attractive forces are dominant "),("C)" CO_2 (P= 1 atm, T = 273K) ,"R)" PV = nRT ),("D) Real gas with very large molar volume ","S)" P(V - nb) = nRT ):}`

{:("Column-I ","Column-II "),("A) Low pressure ","P)" Z=1 ),("B) High pressure ","Q) "Z != 1 ),("C) Very high temperature ","R) "Pb a/V):}

{:("Column - I", "Column - II"),("A) Milk","p) Aerosol "),("B) Dust ","q) Emulsion "),("C) Cheese ","r) Gel"),("D) Froth ","s) Foam "):}

{:("Column-I","Column-II"),("A)" 10^(@) "difference","P) 10 K"),("B) temperature is 20°c","Q) 20 K"),("C) 40°C","R) 293 K"),("D) 60°C","S) 33K"),(,"T) 313 K"):}

{:("Column-I","Column-II"),("A) 37°C","P) 77K"),("B) 80°F","Q) 299.66 K"),("C) - 196°C","R) 373 K"),(,"S) 310 K"):}

{:("Column-"," Column-II "),("A) Boyle's law ","P)" P_("obs") = P_("atm") +P_("water vapour")),("B) Avagadro's law ","Q)" V_1 = n_1 ((V_2)/(n_2))),("C) Charles' law ","R)" V_t = V_0 (1 + t/273)),("D) Dalton's law ","S)" V_1 = P_2((V_2)/(P_1))):}

Consider a fixed number of moles of a gas at constant temperature for A, B, C cases of Column- I. {:("Column-I","Column-II"),("A) P-V graph","P) Straight line passing through origin"),("B)" P - (1)/( V) "graph", "Q) Straight line parallel to pressure axis"),("C) PV-P graph","R) Straight line cutting temperature axis at"-273°C),("D) P-T graph in","S) Rectangular hyperbola isochoric process"):}

The vander waals constants a and b of a real gas are 3.6L^2 atm mol^(-2) and 0.05L mol^(-1) respectively. If 200g of gas (molecular mass 40) is placed in 10L vessel at 300K, {:("Column-I ","Column-II "),("A) Pressure correction (atm) ","P) 0.25 "),("B) Free space for the molecules to move about(L) ","Q) 0.0125 "),("C) Actual volume of the gas molecules per mole (L) ","R) 0.9 "),("D) Effective volume occupied by total gas molecules (L) ","S) 9.75 "):}