139033
The pressure of an ideal gas is written as $p=\frac{2 E}{3 V^{\prime}}$ here $E$ refers to
1 translation kinetic energy
2 rotational kinetic energy
3 vibrational kinetic energy
4 total kinetic energy
Explanation:
A The pressure of an ideal gas is written as $\mathrm{P}=\frac{2 \mathrm{E}}{3 \mathrm{~V}^{\prime}}$, Molecules show straight line motion Here E refers to translation kinetic energy.
CG PET- 2013
Kinetic Theory of Gases
139036
Every gas behaves as an ideal gas
1 at high temperature and low pressure
2 at low temperature and high pressure
3 at normal temperature and pressure
4 None of the above
Explanation:
A Every gas behaves as an ideal gas at high temperature and low pressure because the potential energy due to intermolecular forces becomes less significant compared with the particles kinetic energy and the size of the molecules becomes less significant compared to the empty space between them.
CG PET- 2006
Kinetic Theory of Gases
139048
Liquid oxygen at $50 \mathrm{~K}$ is heated for a long time at constant pressure of $1 \mathrm{~atm}$. The rate of heating is constant. Which one of the following graphs represents the variation of temperature (T) with time (t)
1
2
3
4
Explanation:
C The temperature of liquid oxygen will first get increased in first phase and there after the liquid oxygen get changed to gaseous phase during which the temperature will be constant.
SCRA-2015
Kinetic Theory of Gases
139063
An ideal gas undergoing adiabatic expansion obeys the relation
NEET Test Series from KOTA - 10 Papers In MS WORD
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Kinetic Theory of Gases
139033
The pressure of an ideal gas is written as $p=\frac{2 E}{3 V^{\prime}}$ here $E$ refers to
1 translation kinetic energy
2 rotational kinetic energy
3 vibrational kinetic energy
4 total kinetic energy
Explanation:
A The pressure of an ideal gas is written as $\mathrm{P}=\frac{2 \mathrm{E}}{3 \mathrm{~V}^{\prime}}$, Molecules show straight line motion Here E refers to translation kinetic energy.
CG PET- 2013
Kinetic Theory of Gases
139036
Every gas behaves as an ideal gas
1 at high temperature and low pressure
2 at low temperature and high pressure
3 at normal temperature and pressure
4 None of the above
Explanation:
A Every gas behaves as an ideal gas at high temperature and low pressure because the potential energy due to intermolecular forces becomes less significant compared with the particles kinetic energy and the size of the molecules becomes less significant compared to the empty space between them.
CG PET- 2006
Kinetic Theory of Gases
139048
Liquid oxygen at $50 \mathrm{~K}$ is heated for a long time at constant pressure of $1 \mathrm{~atm}$. The rate of heating is constant. Which one of the following graphs represents the variation of temperature (T) with time (t)
1
2
3
4
Explanation:
C The temperature of liquid oxygen will first get increased in first phase and there after the liquid oxygen get changed to gaseous phase during which the temperature will be constant.
SCRA-2015
Kinetic Theory of Gases
139063
An ideal gas undergoing adiabatic expansion obeys the relation
139033
The pressure of an ideal gas is written as $p=\frac{2 E}{3 V^{\prime}}$ here $E$ refers to
1 translation kinetic energy
2 rotational kinetic energy
3 vibrational kinetic energy
4 total kinetic energy
Explanation:
A The pressure of an ideal gas is written as $\mathrm{P}=\frac{2 \mathrm{E}}{3 \mathrm{~V}^{\prime}}$, Molecules show straight line motion Here E refers to translation kinetic energy.
CG PET- 2013
Kinetic Theory of Gases
139036
Every gas behaves as an ideal gas
1 at high temperature and low pressure
2 at low temperature and high pressure
3 at normal temperature and pressure
4 None of the above
Explanation:
A Every gas behaves as an ideal gas at high temperature and low pressure because the potential energy due to intermolecular forces becomes less significant compared with the particles kinetic energy and the size of the molecules becomes less significant compared to the empty space between them.
CG PET- 2006
Kinetic Theory of Gases
139048
Liquid oxygen at $50 \mathrm{~K}$ is heated for a long time at constant pressure of $1 \mathrm{~atm}$. The rate of heating is constant. Which one of the following graphs represents the variation of temperature (T) with time (t)
1
2
3
4
Explanation:
C The temperature of liquid oxygen will first get increased in first phase and there after the liquid oxygen get changed to gaseous phase during which the temperature will be constant.
SCRA-2015
Kinetic Theory of Gases
139063
An ideal gas undergoing adiabatic expansion obeys the relation
139033
The pressure of an ideal gas is written as $p=\frac{2 E}{3 V^{\prime}}$ here $E$ refers to
1 translation kinetic energy
2 rotational kinetic energy
3 vibrational kinetic energy
4 total kinetic energy
Explanation:
A The pressure of an ideal gas is written as $\mathrm{P}=\frac{2 \mathrm{E}}{3 \mathrm{~V}^{\prime}}$, Molecules show straight line motion Here E refers to translation kinetic energy.
CG PET- 2013
Kinetic Theory of Gases
139036
Every gas behaves as an ideal gas
1 at high temperature and low pressure
2 at low temperature and high pressure
3 at normal temperature and pressure
4 None of the above
Explanation:
A Every gas behaves as an ideal gas at high temperature and low pressure because the potential energy due to intermolecular forces becomes less significant compared with the particles kinetic energy and the size of the molecules becomes less significant compared to the empty space between them.
CG PET- 2006
Kinetic Theory of Gases
139048
Liquid oxygen at $50 \mathrm{~K}$ is heated for a long time at constant pressure of $1 \mathrm{~atm}$. The rate of heating is constant. Which one of the following graphs represents the variation of temperature (T) with time (t)
1
2
3
4
Explanation:
C The temperature of liquid oxygen will first get increased in first phase and there after the liquid oxygen get changed to gaseous phase during which the temperature will be constant.
SCRA-2015
Kinetic Theory of Gases
139063
An ideal gas undergoing adiabatic expansion obeys the relation
