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HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1 | HC Verma Solutions - JEE PDF Download

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Q.1. When we place a gas cylinder on a van and the van moves, does the kinetic energy of the molecules increase? Does the temperature increase?

No, kinetic energy of the molecules does not increase. This is because velocity of the molecules does not increase with respect to the walls of the gas cylinder, when the cylinder is kept in a vehicle moving with a uniform motion. However, if the vehicle is accelerated or decelerated, then there will be a change in the gas's kinetic energy and there will be a rise in the temperature. 


Q.2. While gas from a cooking gas cylinder is used, the pressure does not fall appreciably till the last few minutes. Why?

Inside a cooking gas cylinder, the gas is kept in the liquid state using high pressure. Boiling point of a liquid depends on the pressure above its surface. Higher the pressure above the liquid, higher will be its boiling point.
When the gas oven is switched on, the vapour pressure inside the cylinder decreases. To compensate this fall in pressure, more liquid undergoes phase transition (vapourisation) to build up the earlier pressure. In this way, more and more gas evaporates from the liquified state at constant pressure.    


Q.3. Do you expect the gas in a cooking gas cylinder to obey the ideal gas equation?

No, the gas won't obey ideal gas equation due to the following reasons:
1. In a cooking gas cylinder, the gas is kept at high pressure and at room temperature. Real gases behave ideally only at low pressure and high temperature.
2. Cooking gas is kept in liquid state inside the cylinder becaue liquid state does not obey the ideal gas equation. 


Q.4. Can we define the temperature of (a) vacuum, (b) a single molecule?

(a) Temperature is defined as the average kinetic energy of he partciles. In a vacuum, devoid of any electromagnetic fields and molecules or entities, the temperature cannot be defined as there are no molecules or atoms or entities.
(b) No, we cannot define temperature of a single molecule. Since temperature is defined as the average kinetic energy of the particles, it is defined only statistically for a large collection of molecules. 


Q.5. Comment on the following statement: the temperature of all the molecules in a sample of a gas is the same.

Yes, at equilibrium all the molecules in a sample of gas have the same temperature. This is because temperature is defined as the average kinetic energy for all the molecules in a system. Since all the molecules have the same average, temperature will be the same for all the molecules.


Q.6. Consider a gas of neutrons. Do you expect it to behave much better as an ideal gas as compared to hydrogen gas at the same pressure and temperature?

Yes, according to the postulates of kinetic theory, a gas of neutrons will be a better ideal gas than hydrogen. The reasons are given below:
1. As per the Kinetic theory, neutrons do not interact with each othe. Molecules of an ideal gas should also not interact with each other. On the other hand, hydrogen molecules interact with each other owing to the presence of charges in them.
2. Neutrons are smaller than hydrogen. This fulfils another kinetic theory postulate that gas molecules should be points and should have negligible size. 


Q.7. A gas is kept in a rigid cubical container. If a load of 10 kg is put on the top of the container, does the pressure increase?

No, the pressure on gas won't increase because of this. The pressure will not be transferred to the gas, but to the container and to the ground.  


Q.8.  If it were possible for a gas in a container to reach the temperature 0 K, its pressure would be zero. Would the molecules not collide with the walls? Would they not transfer momentum to the walls?

Since the pressure would be zero, the molecules would not collide with the walls and would not transfer momentum to the walls. This is because pressure of a gas is formed due to the molecule's collision with the walls of the container.  


Q.9. It is said that the assumptions of kinetic theory are good for gases having low densities. Suppose a container is so evacuated that only one molecule is left in it. Which of the assumptions of kinetic theory will not be valid for such a situation? Can we assign a temperature to this gas?

Two postulates of kinetic theory will not be valid in this case. These are given below:
1. All gases are made up of molecules moving randomly in all directions
2. When a gas is left for a sufficient time, it comes to a steady state. The density and the distribution of molecules with different velocities are independent of position, direction and time. 


Q.10. A gas is kept in an enclosure. The pressure of the gas is reduced by pumping out some gas. Will the temperature of the gas decrease by Charles's low?

If the gas is ideal, there will be no temperature change. Moreover, Charles's law relates volume with temperature not pressure with temperature, so the cause behind the phenomena cannot be explained by Charles's law.


Q.11. Explain why cooking is faster in a pressure cooker.

In a pressure cooker, the vapour pressure over the water surface is more than the atmospheric pressure. This means boiling point of the water will be higher in the pressure cooker than in the open. This will let the cereals and food to be cooked in higher temperature than at 100°C,. Thus, cooking process gets faster.


Q.12. If the molecules were not allowed to collide among themselves, would you expect more evaporation or less evaporation?

If the molecules are not allowed to collide with each other, they will have long mean free paths and hence, evaporation will be faster. In vacuum, the external pressure will be very low. So, the liquid will boil and evaporate at very low temperature.  


Q.13. Is it possible to boil water at room temperature, say 30°C? If we touch a flask containing water boiling at this temperature, will it be hot?

 Yes, it is possible to boil water at 30°C by reducing the external pressure. A liquid boils when its vapour pressure equals external pressure. By lowering the external pressure, it is possible to boil the liquid at low temperatures.

No, the flask containing water boiling at 30°C will not be hot.


Q.14. When you come out of a river after a dip, you feel cold. Explain.

After a dip in the river, the water that sticks to our body gets evaporated. We know that evaporation takes place faster for higher temperatures. Thus, the molecules that have the highest kinetic energy leave faster and that is how heat is given away from our body.

As a result of it, temperature of our body falls down due to loss of heat and we feel cold.

Multiple Choice Questions

Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Which of the following parameters is the same for molecules of all gases at a given temperature?
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:A gas behaves more closely as an ideal gas at
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The pressure of an ideal gas is written as P = 2E/3V. Here E refers to 
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The energy of a given sample of an ideal gas depends only on its
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Which of the following gases has maximum rms speed at a given temperature?
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Figure shows graphs of pressure vs density for an ideal gas at two temperatures T1 and T2.
HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1 | HC Verma Solutions - JEE
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The mean square speed of the molecules of a gas at absolute temperature T is proportional to 
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Suppose a container is evacuated to leave just one molecule of a gas in it. Let va and vrms represent the average speed and the rms speed of the gas.
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The rms speed of oxygen at room temperature is about 500 m/s. The rms speed of hydrogen at the same temperature is about
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The pressure of a gas kept in an isothermal container is 200 kPa. If half the gas is removed from it, the pressure will be
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The rms speed of oxygen molecules in a gas is v. If the temperature is doubled and the oxygen molecules dissociate into oxygen atoms, the rms speed will become
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The quantity pV/kT represents
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The process on an ideal gas, shown in figure, is
HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1 | HC Verma Solutions - JEE
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:There is some liquid in a closed bottle. The amount of liquid is continuously decreasing. The vapour in the remaining part
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:There is some liquid in a closed bottle. The amount of liquid remains constant as time passes. The vapour in the remaining part
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Vapour is injected at a uniform rate in a closed vessel which was initially evacuated. The pressure in the vessel
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:A vessel A has volume V and a vessel B has volume 2V. Both contain some water which has a constant volume. The pressure in the space above water is pa for vessel A and pb for vessel B.
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*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Consider a collision between an oxygen molecule and a hydrogen molecule in a mixture of oxygen and hydrogen kept at room temperature. Which of the following are possible?
Check
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Consider a mixture of oxygen and hydrogen kept at room temperature. As compared to a hydrogen molecule an oxygen molecule hits the wall
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Which of the following quantities is zero on an average for the molecules of an ideal gas in equilibrium?
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Keeping the number of moles, volume and temperature the same, which of the following are the same for all ideal gases?
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Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:The average momentum of a molecule in a sample of an ideal gas depends on
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*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Which of the following quantities is the same for all ideal gases at the same temperature?
Check
View Solution

Question for HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1
Try yourself:Consider the quantity HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1 | HC Verma Solutions - JEE of an ideal gas where M is the mass of the gas. It depends on the
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FAQs on HC Verma Questions and Solutions: Chapter 24: Kinetic Theory of Gases- 1 - HC Verma Solutions - JEE

1. What is the kinetic theory of gases?
Ans. The kinetic theory of gases is a scientific model that explains the behavior of gases based on the motion of their particles. It states that gases are composed of a large number of tiny particles, such as atoms or molecules, that are constantly moving in random directions and colliding with each other and with the walls of their container.
2. How does the kinetic theory of gases explain pressure?
Ans. According to the kinetic theory of gases, the pressure exerted by a gas is a result of the continuous collisions of its particles with the walls of the container. When the particles collide with the walls, they exert a force, and the cumulative effect of these forces over an area determines the pressure.
3. What is the relationship between temperature and the kinetic energy of gas particles?
Ans. The kinetic theory of gases states that the temperature of a gas is directly proportional to the average kinetic energy of its particles. As the temperature increases, the particles move faster and their kinetic energy increases. Conversely, as the temperature decreases, the particles move slower and their kinetic energy decreases.
4. How does the kinetic theory of gases explain the expansion and contraction of gases with temperature changes?
Ans. The kinetic theory explains that when a gas is heated, its particles gain kinetic energy and move faster. This increased motion results in more frequent and energetic collisions with the container walls, causing the gas to expand. Conversely, when a gas is cooled, its particles lose kinetic energy and move slower, leading to fewer and less energetic collisions, causing the gas to contract.
5. Can the kinetic theory of gases be applied to real gases?
Ans. The kinetic theory of gases is a simplified model that assumes ideal conditions, such as negligible intermolecular forces and perfectly elastic collisions. While real gases may deviate from these assumptions, the kinetic theory provides a good approximation for many gases under normal conditions. However, at high pressures or low temperatures, the behavior of real gases may deviate significantly from the predictions of the kinetic theory.
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