For non-zero value of force of attraction between gas molecules for larger volume, gas equation will be

1. $PV=nRT-\frac{n^2}{V}a$

2. $PV=nRT+nbP$

3. $P=\frac{nRT}{V-b}$

4. PV = nRT 

Four rubber tubes are respectively filled with $H_2,He, N_2 and O_2$. Which tube will be reinflated first?

1. $H_2$ filled tube

2. $N_2$ filled tube

3. He filled tube

4. $O_2$ filled tube

A gas has the van der Waal constants, a =1.49 $L^2 atm mo{l}^{-2 }and b=0.04L mo{l}^{-1}$. Its Boyle's temperature is nearly

1. 50 $°C$

2. 354$°C$

3. 454 K

4. 408 K

One litre of gas A at 2 atm pressure at 27$°C$ and two litres of gas B at 3 atm pressure at 127$°C$ are mixed in a 4 litre vessel. The temperature of the mixture is maintained at 327$°C$. What is the total pressure of the gaseous mixture?

1. 3.93 atm

2. 3.25 atm

3. 4.25 atm

4. 6.25 atm

The root mean square velocity of one mole of a monoatomic gas having molar mass M is $u_{rm{s}^{}}$.

The relation between the average kinetic energy (E) of the gas and $u_{rm{s}^{}}$is

1. $U_{rms}=\surd (3E/2M)$

2. $U_{rms}=\surd (2E/3M)$

3. $U_{rms}=\surd (2E/M)$

4. $U_{rms}=\surd (E/3M)$

At $100°C$ and 1 atm, if the density of liquid water is 1.0 g $c{m}^{-3}$ and that of water vapour is 0.0006 g $c{m}^{-3}$, then the volume occupied by water molecules is 1 litre of steam at that temperature

1. 6 $C{M}^3$

2. 60 $C{M}^3$

3. 0.6 $C{M}^3$

4. 0.06 $C{M}^3$

The compressibility factor of a gas is less than unity at STP. The correct statement among the following is -

1. ${\mathrm{V}}_{\mathrm{m}}$  > 22.4 L

2. ${\mathrm{V}}_{\mathrm{m}}$ < 22.4 L

3. ${\mathrm{V}}_{\mathrm{m}}$ = 22.4 L

4. ${\mathrm{V}}_{\mathrm{m}}$ = 44.8 L

Which of the following statement(s) are correct:

(1) A plot of log KP versus 1/T is linear

(2) A plot of log (X) versus time is linear for a first-order reaction $\mathrm{X}\to \mathrm{P}$'

(3) A plot of log P versus 1/T is linear at constant volume

(4) A plot of P versus 1/V is linear at a constant temperature.

(1) 1, 2

(2) 2, 4

(3) 2, 3

(4) 1, 4

The ratio of root mean square velocity to the average velocity of a gas molecule at a particular temperature is

(1) 1:1.086

(2) 2:1.086

(3) 1.086:1

(4) 1.086:2

An L.P.G. cylinder contains 15 kg of butane gas at $27°\mathrm{C}$ and 10 atmospheric pressure, It was leaking and its pressure fell down to 8 atmospheric pressure after one day. The gas leaked in 5 days is

(1) 10 kg

(2) 3 kg

(3) 15 kg

(4) 12 kg