The velocities of sound at the same temperature in two monoatomic gases of densities ρ1 and ρ2 and ν1 and ν2 respectively. If ρ1 / ρ2 = 4, then the value of ν1/ ν2 is
1/4
2
1/2
4
The average velocity of the molecules in a gas in equilibrium is
proportional to
proportional to T
proportional to T2
equal to zero
If at the same temperature and pressure, the densities of two diatomic gases are d1 and d, respectively, the ratio of mean kinetic energy per molecule of gases will be
1 : 1
:
The value of the gas constant (R) calculated from the perfect gas equation is 8.32 J/g mol-K, whereas its, value calculated from the knowledge of CP and Cv of the gas is 1.98 cal/g mol-K. From this data value of J is
4.16 J/cal
4.18 J/cal
4.20 J/cal
4.22 J/cal
A monoatomic gas supplied the heat Q very slowly keeping the pressure constant. The work done by the gas will be:
When the temperature of an ideal gas is increased from 27°C to 227°C, its rms speed is changed from 400 metre/sec to vs. The vs is :
516 m/s
450 m/s
310 m/s
746 m/s
A.
516 m/s
rms speed is directly proportional to square root of temperature
= 1.29 × 400
= 516.39 m/s
A mixture of oxygen and hydrogen are filled in a vessel at a fixed temperature. The ratio of average kinetic energies of atoms of H2 and O2 is
1 : 16
1 : 8
1 : 12
1 : 1
The speed of sound in a gas (=1.5) at 300 K is 340 m/s. The rms velocity of gas molecules will be
340 m/s
m/s
340 m/s
340 m/s
If 2 g mole of diatomic gas and 1 g mole of monoatomic gas are mixed together, then the ratio of specific heats of mixture is
1 : 24
1 : 58
1 : 46
1 : 60