When a liquid that is immiscible with water was steam distilled at 95.2°C at a total pressure of 99.652 kPa. The distillate contained 1.27 g of the liquid per gram of water. What will be the molar mass of the liquid if the vapour pressure of water is 85.140 kPa at 95.2°C?
99.65 g mol-1
18 g mol-1
134.1 g mol-1
105.74 g mol-1
Van der waals' real gas, acts as an ideal gas at which condition?
High temperature, low pressure
Low temperature, high pressure
High temperature, high pressure
Low temperature, low pressure
Which of the following type of forces are present in vulcanised rubber?
Weakest intermolecular forces
Hydrogen bonding
Three dimensional network of bonds
Metallic bonding
Match the following
List I | List II |
(A) Viscosity | (I) Critical temperature |
(B) Ideal gas behaviour | (II) Isobar |
(C) Liquefaction of gases | (III) Compressibility factor |
(D) Charles'law | (IV) kg s-2 |
(V) kgm-1s-1 |
The correct answer
A-IV, B-III, C-I, D-II
A-V, B-III, C-I, D-II
A-V, B-III, C-II, D-I
A-IV, B-III, C-II, D-I
If the kinetic energy in J, of CH4 (molar mass =16 g mol-1) at T(K) is X, the kinetic energy in J, of O2, (molar mass = 32 g mol-1) at the same temperature is
X
2X
X2
X/2
The given figure shows the Maxwell distribution of molecular speeds of a gas at three different temperatures T1,T2, and T3. The correct order of temperature is
T1 > T2 > T3
T1 > T3 > T2
T3 > T2 > T1
T2 > T3 > T1
At low pressure and high temperature, the van der Waal's equation is finally reduced (simplified) to
pVm = RT
At a given temperature T, gases Ne, Ar, Xe and Kr are found to deviate from ideal gas behaviour. Their equation of state is given as p = at T. Here, b is the van der Waals constant. Which gas will exhibit steepest increase in the plot of Z (compression factor) vs p?
Ne
Xe
Ar
Kr
Consider the following table:
Gas | a/(kPa dm6mol-1) | b/(dm3mol-1) |
A | 642.32 | 0.05196 |
B | 155.21 | 0.04136 |
C | 431.91 | 0.05196 |
D | 155.21 | 0.4382 |
And b are vander walls contants . The correct statement a Bout the gases is :
Gas A will occupy than gas D Compressible than gas D Gas C will Occupy more volume than
gas A gas B will be more compressible than gas D Gas C will Occupy Lesser volume than
Gas A gas B will be more compressible than gas D Gas C will Occupy Lesser volume than
Gas A: gas B will be lesser Compressble than gas D
B.
gas A gas B will be more compressible than gas D Gas C will Occupy Lesser volume than
.
A is having higher intermolecular forces of attraction and hence occupies less volume.