A gas can be liquefied at temperature T and pressure p provided.
T = Tc and p < pc
T < Tc and p > pc
T > Tc and p > pc
T > Tc and p < pc
The dispersed phase and dispersion medium of fog respectively are
solid, liquid
liquid, liquid
liquid, gas
gas, liquid
For the reaction,
2SO2 (g) + O2 (g) → 2SO3 (g) at 300 K, the value of G° is -690.9 R. The equilibrium constant value for the reaction at that temperature is (R is gas constant)
10 atm-1
10 atm
10
1
Four gases P, Q. R and S have almost same values of 'b' but their 'a' values (a, b are van der Waals' constants) are in the order Q < R < S < P. At a particular temperature, among the four gases, the most easily liquefiable one is
P
Q
R
S
The units of surface tension and viscosity of liquids respectively are
kg m-1s-1, Nm-1
kg s-2, kg m-1s-1
Nm-1, kg m-1s-2
kg s-1, kg m-2s-1
The compressibility factor (Z) of one mole of a van der Waals' gas of negligible 'a' value is
1
A van der Waals' gas may behave ideally when
the volume is very low
the temperature is very high
the pressure is very low
the temperature, pressure and volume all are very high
Mixing of two different ideal gases under isothermal reversible condition will lead to
increase of Gibbs free energy of the system
no change of entropy of the system
increase of entropy of the system
increase of enthalpy of the system
C.
increase of entropy of the system
On mixing of two different ideal gases under isothermal reversible conditions, Smix is always positive i.e., increasing.
Two gases X (molecular weight MX) and Y (molecular weight My; My > Mx) are at the same temperature T in two different containers. Their root mean square velocities are Cx and Cy respectively. If the average kinetic energies per molecule of two gases X and Y are Ex and Ey respectively then which of the following relation(s) is(are) true?
Ex >Ey
Cx > Cy
Ex = Ey =(3/2)RT
Ex = Ey =(3/2)kBT