D Co-efficient of volume expansion is thrice the co-efficient of linear expansion. The coefficient of volume expansion of a gas at constant pressure is defined as the fraction of its volume at $0^{\circ} \mathrm{C}$ by which the volume of a fixed mass of gas expands per degree Celsius rise in temperature.
Shift-I]
Kinetic Theory of Gases
138918
Increase in pressure at one point of an enclosed liquid in equilibrium at rest is transmitting equally to all other point. This is as per
1 Impulse
2 Conservation of momentum
3 Pascal's law
4 Bernoulli's theorem
Explanation:
C Pascal's law state that the external static pressure applied on a confined liquid is distributed or transmitted evenly throughout the liquid in all direction
Shift-I]
Kinetic Theory of Gases
138924
All gases deviate from gas laws at
1 Low pressure and high temperature
2 High pressure and low temperature
3 Low pressure and low temperature
4 High pressure and high temperature
Explanation:
B At high pressure and low temperature, the molecular interaction forces become significant. That is why we cannot ignore these forces and also the size of molecules becomes significant at low temperatures. Therefore, all gases deviate from gas laws at high pressure and low temperature.
Shift-2]
Kinetic Theory of Gases
138936
According to kinetic theory of gases, molecules of a gas behave like
1 inelastic spheres
2 perfectly elastic rigid spheres
3 perfectly elastic non-rigid spheres
4 inelastic non-rigid spheres
Explanation:
B The physical behaviour of gases is explained by the kinetic theory of gases .According to kinetic theory of gases, molecules of a gas behave like perfectly elastic rigid spheres.
D Co-efficient of volume expansion is thrice the co-efficient of linear expansion. The coefficient of volume expansion of a gas at constant pressure is defined as the fraction of its volume at $0^{\circ} \mathrm{C}$ by which the volume of a fixed mass of gas expands per degree Celsius rise in temperature.
Shift-I]
Kinetic Theory of Gases
138918
Increase in pressure at one point of an enclosed liquid in equilibrium at rest is transmitting equally to all other point. This is as per
1 Impulse
2 Conservation of momentum
3 Pascal's law
4 Bernoulli's theorem
Explanation:
C Pascal's law state that the external static pressure applied on a confined liquid is distributed or transmitted evenly throughout the liquid in all direction
Shift-I]
Kinetic Theory of Gases
138924
All gases deviate from gas laws at
1 Low pressure and high temperature
2 High pressure and low temperature
3 Low pressure and low temperature
4 High pressure and high temperature
Explanation:
B At high pressure and low temperature, the molecular interaction forces become significant. That is why we cannot ignore these forces and also the size of molecules becomes significant at low temperatures. Therefore, all gases deviate from gas laws at high pressure and low temperature.
Shift-2]
Kinetic Theory of Gases
138936
According to kinetic theory of gases, molecules of a gas behave like
1 inelastic spheres
2 perfectly elastic rigid spheres
3 perfectly elastic non-rigid spheres
4 inelastic non-rigid spheres
Explanation:
B The physical behaviour of gases is explained by the kinetic theory of gases .According to kinetic theory of gases, molecules of a gas behave like perfectly elastic rigid spheres.
D Co-efficient of volume expansion is thrice the co-efficient of linear expansion. The coefficient of volume expansion of a gas at constant pressure is defined as the fraction of its volume at $0^{\circ} \mathrm{C}$ by which the volume of a fixed mass of gas expands per degree Celsius rise in temperature.
Shift-I]
Kinetic Theory of Gases
138918
Increase in pressure at one point of an enclosed liquid in equilibrium at rest is transmitting equally to all other point. This is as per
1 Impulse
2 Conservation of momentum
3 Pascal's law
4 Bernoulli's theorem
Explanation:
C Pascal's law state that the external static pressure applied on a confined liquid is distributed or transmitted evenly throughout the liquid in all direction
Shift-I]
Kinetic Theory of Gases
138924
All gases deviate from gas laws at
1 Low pressure and high temperature
2 High pressure and low temperature
3 Low pressure and low temperature
4 High pressure and high temperature
Explanation:
B At high pressure and low temperature, the molecular interaction forces become significant. That is why we cannot ignore these forces and also the size of molecules becomes significant at low temperatures. Therefore, all gases deviate from gas laws at high pressure and low temperature.
Shift-2]
Kinetic Theory of Gases
138936
According to kinetic theory of gases, molecules of a gas behave like
1 inelastic spheres
2 perfectly elastic rigid spheres
3 perfectly elastic non-rigid spheres
4 inelastic non-rigid spheres
Explanation:
B The physical behaviour of gases is explained by the kinetic theory of gases .According to kinetic theory of gases, molecules of a gas behave like perfectly elastic rigid spheres.
D Co-efficient of volume expansion is thrice the co-efficient of linear expansion. The coefficient of volume expansion of a gas at constant pressure is defined as the fraction of its volume at $0^{\circ} \mathrm{C}$ by which the volume of a fixed mass of gas expands per degree Celsius rise in temperature.
Shift-I]
Kinetic Theory of Gases
138918
Increase in pressure at one point of an enclosed liquid in equilibrium at rest is transmitting equally to all other point. This is as per
1 Impulse
2 Conservation of momentum
3 Pascal's law
4 Bernoulli's theorem
Explanation:
C Pascal's law state that the external static pressure applied on a confined liquid is distributed or transmitted evenly throughout the liquid in all direction
Shift-I]
Kinetic Theory of Gases
138924
All gases deviate from gas laws at
1 Low pressure and high temperature
2 High pressure and low temperature
3 Low pressure and low temperature
4 High pressure and high temperature
Explanation:
B At high pressure and low temperature, the molecular interaction forces become significant. That is why we cannot ignore these forces and also the size of molecules becomes significant at low temperatures. Therefore, all gases deviate from gas laws at high pressure and low temperature.
Shift-2]
Kinetic Theory of Gases
138936
According to kinetic theory of gases, molecules of a gas behave like
1 inelastic spheres
2 perfectly elastic rigid spheres
3 perfectly elastic non-rigid spheres
4 inelastic non-rigid spheres
Explanation:
B The physical behaviour of gases is explained by the kinetic theory of gases .According to kinetic theory of gases, molecules of a gas behave like perfectly elastic rigid spheres.
