Related Questions
If the absolute temperature of a gas is doubled and the pressure is reduced to one half, the volume of the gas will
Remain unchanged
Be doubled
Increase four fold
Be halved
Which law explains the relationship between the pressure and temperature of a gas at constant volume?
Gay-Lussac's Law
Charles's Law
Boyle's Law
Avogadro's Law
A closed vessel contains equal number of oxygen and hydrogen molecules at a total pressure of 740 mm. If oxygen is removed from the system, the pressure:
Becomes half of 740 mm
Remains unchanged
Becomes of 740 mm
Becomes double of 740 mm
The product of pressure and volume has a unit of:
Impulse
Energy or work
Entropy
Force
Dipole-dipole attractive forces are strongest between the molecules of:
The condition of SATP refers for:
0°C and 101.3 kPa
25°C and 100 kPa
20°C and 100 kPa
25°C and 1 atm
Equal volumes of two gases are kept in separate containers at the same temperature and pressure. Then:
Masses of the two gases are same
Molecular structure of two gases would be similar
The two gases contain the same number of molecules
The two gases, if allowed to diffuse would do so at the same rate
Consider a fixed amount of an ideal gas at constant temperature. If the pressure of the gas is tripled, which of the following describes the change in volume?
Reduced to one-third
Reduced to one-half
Doubled
Tripled
If the pressure of a fixed amount of gas at constant temperature is tripled, its volume will:
Triple
Double
Decrease to one-third of its initial value
Remain unchanged
At a constant temperature, if the volume of a gas is halved, its pressure will:
Halve
Double
Remain constant
Quadruple
