138939
The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on
1 heat supplied
2 statistical distribution of velocities
3 gas density
4 all of these
Explanation:
D The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on heat supplied, statistical distribution of velocities and gas density.
J and K CET- 1997
Kinetic Theory of Gases
138944
For Boyle's law to hold good the necessary condition is
1 isothermal
2 adiabatic
3 isobaric
4 isochoric
Explanation:
A Boyle's law is a gas law that states that the pressure exerted by a gas is inversely proportional to the volume occupied by it at a constant temperature.
SRMJEEE - 2016
Kinetic Theory of Gases
138964
The change in internal energy of real gases is given by
1
2
3
4
Explanation:
A Internal Energy of an Ideal gas possess translation Kinetic Energy. So, internal energy only depends on temperature
Shift-I]
Kinetic Theory of Gases
138903
Using diagram for an ideal gas, find the work done by the gas in process . #[Qdiff: Hard, QCat: Image based, examname: AP EAMCET-25.09.2020, Shift-II#
1
2
3
4
Explanation:
C We know that Area under the curve in PV diagram equal to the work done. So work done in different path. ....(ii) Then total work done will be
Kinetic Theory of Gases
138955
The amount of heat that must be supplied to 35 g of oxygen at room temperature to raise its temperature by at constant volume is (Molecular mass of oxygen is 32 and mol ) #[Qdiff: Hard, QCat: Numerical Based, examname: AP EAMCET (21.04.2019) Shift-II#
1
2
3
4
Explanation:
C Given, Oxygen weight Number of moles of oxygen Specific heat capacity of at constant volume The amount of heat supplied
138939
The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on
1 heat supplied
2 statistical distribution of velocities
3 gas density
4 all of these
Explanation:
D The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on heat supplied, statistical distribution of velocities and gas density.
J and K CET- 1997
Kinetic Theory of Gases
138944
For Boyle's law to hold good the necessary condition is
1 isothermal
2 adiabatic
3 isobaric
4 isochoric
Explanation:
A Boyle's law is a gas law that states that the pressure exerted by a gas is inversely proportional to the volume occupied by it at a constant temperature.
SRMJEEE - 2016
Kinetic Theory of Gases
138964
The change in internal energy of real gases is given by
1
2
3
4
Explanation:
A Internal Energy of an Ideal gas possess translation Kinetic Energy. So, internal energy only depends on temperature
Shift-I]
Kinetic Theory of Gases
138903
Using diagram for an ideal gas, find the work done by the gas in process . #[Qdiff: Hard, QCat: Image based, examname: AP EAMCET-25.09.2020, Shift-II#
1
2
3
4
Explanation:
C We know that Area under the curve in PV diagram equal to the work done. So work done in different path. ....(ii) Then total work done will be
Kinetic Theory of Gases
138955
The amount of heat that must be supplied to 35 g of oxygen at room temperature to raise its temperature by at constant volume is (Molecular mass of oxygen is 32 and mol ) #[Qdiff: Hard, QCat: Numerical Based, examname: AP EAMCET (21.04.2019) Shift-II#
1
2
3
4
Explanation:
C Given, Oxygen weight Number of moles of oxygen Specific heat capacity of at constant volume The amount of heat supplied
138939
The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on
1 heat supplied
2 statistical distribution of velocities
3 gas density
4 all of these
Explanation:
D The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on heat supplied, statistical distribution of velocities and gas density.
J and K CET- 1997
Kinetic Theory of Gases
138944
For Boyle's law to hold good the necessary condition is
1 isothermal
2 adiabatic
3 isobaric
4 isochoric
Explanation:
A Boyle's law is a gas law that states that the pressure exerted by a gas is inversely proportional to the volume occupied by it at a constant temperature.
SRMJEEE - 2016
Kinetic Theory of Gases
138964
The change in internal energy of real gases is given by
1
2
3
4
Explanation:
A Internal Energy of an Ideal gas possess translation Kinetic Energy. So, internal energy only depends on temperature
Shift-I]
Kinetic Theory of Gases
138903
Using diagram for an ideal gas, find the work done by the gas in process . #[Qdiff: Hard, QCat: Image based, examname: AP EAMCET-25.09.2020, Shift-II#
1
2
3
4
Explanation:
C We know that Area under the curve in PV diagram equal to the work done. So work done in different path. ....(ii) Then total work done will be
Kinetic Theory of Gases
138955
The amount of heat that must be supplied to 35 g of oxygen at room temperature to raise its temperature by at constant volume is (Molecular mass of oxygen is 32 and mol ) #[Qdiff: Hard, QCat: Numerical Based, examname: AP EAMCET (21.04.2019) Shift-II#
1
2
3
4
Explanation:
C Given, Oxygen weight Number of moles of oxygen Specific heat capacity of at constant volume The amount of heat supplied
NEET Test Series from KOTA - 10 Papers In MS WORD
WhatsApp Here
Kinetic Theory of Gases
138939
The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on
1 heat supplied
2 statistical distribution of velocities
3 gas density
4 all of these
Explanation:
D The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on heat supplied, statistical distribution of velocities and gas density.
J and K CET- 1997
Kinetic Theory of Gases
138944
For Boyle's law to hold good the necessary condition is
1 isothermal
2 adiabatic
3 isobaric
4 isochoric
Explanation:
A Boyle's law is a gas law that states that the pressure exerted by a gas is inversely proportional to the volume occupied by it at a constant temperature.
SRMJEEE - 2016
Kinetic Theory of Gases
138964
The change in internal energy of real gases is given by
1
2
3
4
Explanation:
A Internal Energy of an Ideal gas possess translation Kinetic Energy. So, internal energy only depends on temperature
Shift-I]
Kinetic Theory of Gases
138903
Using diagram for an ideal gas, find the work done by the gas in process . #[Qdiff: Hard, QCat: Image based, examname: AP EAMCET-25.09.2020, Shift-II#
1
2
3
4
Explanation:
C We know that Area under the curve in PV diagram equal to the work done. So work done in different path. ....(ii) Then total work done will be
Kinetic Theory of Gases
138955
The amount of heat that must be supplied to 35 g of oxygen at room temperature to raise its temperature by at constant volume is (Molecular mass of oxygen is 32 and mol ) #[Qdiff: Hard, QCat: Numerical Based, examname: AP EAMCET (21.04.2019) Shift-II#
1
2
3
4
Explanation:
C Given, Oxygen weight Number of moles of oxygen Specific heat capacity of at constant volume The amount of heat supplied
138939
The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on
1 heat supplied
2 statistical distribution of velocities
3 gas density
4 all of these
Explanation:
D The rise in temperature of the gas and the pressure exerted by it on the walls of an enclosure depends on heat supplied, statistical distribution of velocities and gas density.
J and K CET- 1997
Kinetic Theory of Gases
138944
For Boyle's law to hold good the necessary condition is
1 isothermal
2 adiabatic
3 isobaric
4 isochoric
Explanation:
A Boyle's law is a gas law that states that the pressure exerted by a gas is inversely proportional to the volume occupied by it at a constant temperature.
SRMJEEE - 2016
Kinetic Theory of Gases
138964
The change in internal energy of real gases is given by
1
2
3
4
Explanation:
A Internal Energy of an Ideal gas possess translation Kinetic Energy. So, internal energy only depends on temperature
Shift-I]
Kinetic Theory of Gases
138903
Using diagram for an ideal gas, find the work done by the gas in process . #[Qdiff: Hard, QCat: Image based, examname: AP EAMCET-25.09.2020, Shift-II#
1
2
3
4
Explanation:
C We know that Area under the curve in PV diagram equal to the work done. So work done in different path. ....(ii) Then total work done will be
Kinetic Theory of Gases
138955
The amount of heat that must be supplied to 35 g of oxygen at room temperature to raise its temperature by at constant volume is (Molecular mass of oxygen is 32 and mol ) #[Qdiff: Hard, QCat: Numerical Based, examname: AP EAMCET (21.04.2019) Shift-II#
1
2
3
4
Explanation:
C Given, Oxygen weight Number of moles of oxygen Specific heat capacity of at constant volume The amount of heat supplied