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The volume of one mole of an ideal gas with adiabatic exponent y = 1.4 is varied according to law V = a/T where ‘a’ is a constant. Find amount of heat absorbed by gas in this process if gas temperature increases by 100 K.
02
Sep
The volume of one mole of an ideal gas with adiabatic exponent y = 1.4 is varied according to law V = a/T where ‘a’ is a constant. Find amount of heat absorbed by gas in this process if gas temperature increases by 100 K. A gas has molar heat capacity C = 4.5R in [...]
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Tags: A gas has molar heat capacity C = 4.5R in the process PT=constant. The number of degrees of freedom of molecules in the gas is ,
In the circuit shown in fig, find the current through the branch BD.
02
Sep
In the circuit shown in fig, find the current through the branch BD. find the current through the branch BD. In the circuit shown in fig September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: find the current through the branch BD. , In the circuit shown in fig ,
A gas has molar heat capacity C = 4.5R in the process PT=constant. The number of degrees of freedom of molecules in the gas is
02
Sep
A gas has molar heat capacity C = 4.5R in the process PT=constant. The number of degrees of freedom of molecules in the gas is A gas has molar heat capacity C = 4.5R in the process PT=constant. The number of degrees of freedom of molecules in the gas is September 2, 2020 Category: Uncategorised [...]
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Tags: A gas has molar heat capacity C = 4.5R in the process PT=constant. The number of degrees of freedom of molecules in the gas is ,
find the current in each wire.
02
Sep
find the current in each wire. find the current in each wire. September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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An ideal gas with adiabatic exponent γ is heated at constant pressure. It absorbs q amount of heat. Determine the fraction of heat absorbed
02
Sep
An ideal gas with adiabatic exponent γ is heated at constant pressure. It absorbs q amount of heat. Determine the fraction of heat absorbed An ideal gas with adiabatic exponent γ is heated at constant pressure. It absorbs q amount of heat. Determine the fraction of heat absorbed September 2, 2020 Category: Uncategorised (JEE Advanced [...]
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Tags: An ideal gas with adiabatic exponent γ is heated at constant pressure. It absorbs q amount of heat. Determine the fraction of heat absorbed ,
In figure, given below find the current in the wire BD.
02
Sep
In figure, given below find the current in the wire BD. given below find the current in the wire BD. In figure September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: given below find the current in the wire BD. , In figure ,
The figure shows two identical cylinders A and B which contain equal amounts of an ideal gas with adiabatic exponent gama. The piston of cylinder A is free and that of cylinder B is fixed.
02
Sep
The figure shows two identical cylinders A and B which contain equal amounts of an ideal gas with adiabatic exponent gama. The piston of cylinder A is free and that of cylinder B is fixed. The figure shows two identical cylinders A and B which contain equal amounts of an ideal gas with adiabatic exponent [...]
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Tags: The figure shows two identical cylinders A and B which contain equal amounts of an ideal gas with adiabatic exponent gama. The piston of cylinder A is free and that of cylinder B is fixed. ,
The resistance and batteries are connected as shown in. The potentials at points B,C,D, and E are assigned as shown. Find the potential at point A.
02
Sep
The resistance and batteries are connected as shown in. The potentials at points B,C,D, and E are assigned as shown. Find the potential at point A. and E are assigned as shown. Find the potential at point A. C D The resistance and batteries are connected as shown in. The potentials at points B September [...]
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Tags: and E are assigned as shown. Find the potential at point A. , C , D , The resistance and batteries are connected as shown in. The potentials at points B ,
A vertical hollow cylinder contains an ideal gas. The gas is enclosed by a 5kg movable piston with an area of cross-section 5×10^−3m^2. Now, the gas is heated slowly from 300K to 350K and the piston rises by 0.1m. The piston is now clamped at this position and the gas is cooled back to 300K. Find the difference
02
Sep
A vertical hollow cylinder contains an ideal gas. The gas is enclosed by a 5kg movable piston with an area of cross-section 5×10^−3m^2. Now, the gas is heated slowly from 300K to 350K and the piston rises by 0.1m. The piston is now clamped at this position and the gas is cooled back to 300K. [...]
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Tags: A vertical hollow cylinder contains an ideal gas. The gas is enclosed by a 5kg movable piston with an area of cross-section 5×10^−3m^2. Now , the gas is heated slowly from 300K to 350K and the piston rises by 0.1m. The piston is now clamped at this position and the gas is cooled back to 300K. Find the difference ,
100 cells each of emf 5V and internal resistance 1Ω are to be arranged to produce maximum current in a 25Ω resistance. Each row contains equal number of cells. Find the number of rows.
02
Sep
100 cells each of emf 5V and internal resistance 1Ω are to be arranged to produce maximum current in a 25Ω resistance. Each row contains equal number of cells. Find the number of rows. 100 cells each of emf 5V and internal resistance 1Ω are to be arranged to produce maximum current in a 25Ω [...]
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Tags: 100 cells each of emf 5V and internal resistance 1Ω are to be arranged to produce maximum current in a 25Ω resistance. Each row contains equal number of cells. Find the number of rows. ,