Dalton's law of partial pressure is applicable to which one of the following systems?
NH3 + HCl
NO + O2
H2 + Cl2
CO + H2
A gas deviates from ideal behaviour at a high pressure because its molecules
attract one another
show the Tyndall effect
have kinetic energy
are bound by covalent bonds
In order to increase the volume of a gas by 10%, the pressure of the gas should be
increased by 10%
increased by 1%
decreased by 10%
decreased by 1%
C.
decreased by 10%
ccording to Boyle's law,
p ∝
Hence, in order to increase the volume of a gas by 10%, the pressure of the gas should be decreased by10%.
The rms velocity of molecules of a gas of density 4 kg m-3 and pressure 1.2 × 105 Nm-2 is
300 ms-1
900 ms-1
120 ms-1
600 ms-1
0.5 mole of each of H2, SO2 and CH4 are kept in a container. A hole was made in the container. After 3 h, the order of partial pressures in the container will be
pSO2 > pH2 > pCH4
pSO2 > pCH4 > pH2
pH2 > pSO2 > pCH4
pH2 > pCH4 > pSO2
5 moles of SO2 and 5 moles of O2 are allowed to react. At equilibrium, it was found that 60% of SO2 is used up. If the partial pressure of the equilibrium mixture is one atmosphere, the partial pressure of O2 is
0.82 atm
0.52 atm
0.21 atm
0.41 atm
For one mole of an ideal gas, increasing the temperature from 10°C to 20°C
increases the average kinetic energy by two times
increases the rms velocity by √2 times
increases the rms velocityby two times
increases both the average kinetic energy and rms velocity, but not significantly
Out of the given two compounds, the vapour pressure of B at a particular temperature is
higher than that of A
lower than that of A
higher or lower than A depending on the size of the vessel
same as that of A
25 g of each of the following gasses are taken at 27°C and 600 mm pressure. Which of these will have the least volume?
HCl
HBr
HI
HF
In which one of the following, does the given amount of chlorine exert the least pressure in a vessel of capacity 1 dm3 at 273 K?
0.0355g
0.071g
6.023 × 1021 molecules
0.02 mol