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
Related Questions
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
The compressibility factor (Z) for a gas is given by . At high pressures, attractive forces between gas molecules become significant. For a gas exhibiting strong intermolecular attractions, at moderately high pressure, Z will be:
Greater than 1
Less than 1
Equal to 1
Zero
The product of pressure and volume has a unit of:
Impulse
Energy or work
Entropy
Force
A gas occupies a volume of 2 liters at a pressure of 1 atm. According to Boyle’s Law, what will be the approximate volume of the gas at a pressure of 0.5 atm, assuming the temperature remains constant?
0.5 L
1 L
2 L
4 L
The product of pressure and volume has a unit of:
Impulse
Energy or work
Entropy
Force
A gas occupies 20 L at 27°C and 1 atm. What will be its volume at 127°C and 2 atm pressure?
13.33 L
16.67 L
26.67 L
6.67 L
A gas behaves most like an ideal gas under conditions of:
High pressure and low temperature
High temperature and high pressure
Low pressure an high temperature
Low pressure and low temperature
One atmosphere is numerically equal to approximately:
Introduction of absolute scale of thermometry is the result of:
Gaseous law
Graham’s law
Charles’ law
Dalton’s law
Normal temperature and pressure of gases refers to:
and mm Hg
273\,\,^\circ C\,\,and\,\,760\,\,mm\,Hg
and mm Hg
273\,\,^\circ C\,\,and\,\,76\,\,\,mm\,\,Hg
