Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)

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Two moles of helium gas is taken over the cycle ABCDA, as shown in the P-T diagram. Assuming the gas to be ideal, the work done on the gas in taking it from A to B is
29
Oct
Two moles of helium gas is taken over the cycle ABCDA, as shown in the P-T diagram. Assuming the gas to be ideal, the work done on the gas in taking it from A to B is as shown in the P-T diagram. Assuming the gas to be ideal the work done on the gas [...]
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Tags: as shown in the P-T diagram. Assuming the gas to be ideal , the work done on the gas in taking it from A to B is , Two moles of helium gas is taken over the cycle ABCDA ,
A vertically oriented cylindrical vessel containing oxygen gas and closed by a piston of mass 50 kg. Piston can slide smoothly in the cylinder. Its cross-sectional area is 100 cm^2
29
Oct
A vertically oriented cylindrical vessel containing oxygen gas and closed by a piston of mass 50 kg. Piston can slide smoothly in the cylinder. Its cross-sectional area is 100 cm^2 A vertically oriented cylindrical vessel containing oxygen gas and closed by a piston of mass 50 kg. Piston can slide smoothly in the cylinder. Its [...]
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Tags: A vertically oriented cylindrical vessel containing oxygen gas and closed by a piston of mass 50 kg. Piston can slide smoothly in the cylinder. Its cross-sectional area is 100 cm^2 ,
A gas consisting of rigid diatomic molecules was expanded ma polytropic process so that the rate of collision of the molecules against the vessel’s wall did not change. Find the
29
Oct
A gas consisting of rigid diatomic molecules was expanded ma polytropic process so that the rate of collision of the molecules against the vessel’s wall did not change. Find the A gas consisting of rigid diatomic molecules was expanded ma polytropic process so that the rate of collision of the molecules against the vessel's wall [...]
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A gas consisting of monatomic molecules (degrees of freedom = 3) was expanded in a polytropic process so that the rate of collision of the molecules against the vessel’s wall
29
Oct
A gas consisting of monatomic molecules (degrees of freedom = 3) was expanded in a polytropic process so that the rate of collision of the molecules against the vessel’s wall A gas consisting of monatomic molecules (degrees of freedom = 3) was expanded in a polytropic process so that the rate of collision of the [...]
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Tags: A gas consisting of monatomic molecules (degrees of freedom = 3) was expanded in a polytropic process so that the rate of collision of the molecules against the vessel's wall ,
A sample of an ideal gas is taken through a process ABCD. It absorbs 50 J of energy during the process AB which is an isometric process, no heat during BC and it rejects 70 J of
29
Oct
A sample of an ideal gas is taken through a process ABCD. It absorbs 50 J of energy during the process AB which is an isometric process, no heat during BC and it rejects 70 J of A sample of an ideal gas is taken through a process ABCD. It absorbs 50 J of energy [...]
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Tags: A sample of an ideal gas is taken through a process ABCD. It absorbs 50 J of energy during the process AB which is an isometric process , no heat during BC and it rejects 70 J of ,
Temperature of 1 mole of an ideal gas is increased from 300 K to 310 K under isochoric process. Heat supplied to the gas in this process is 25 R. What amount of work (in joules)
29
Oct
Temperature of 1 mole of an ideal gas is increased from 300 K to 310 K under isochoric process. Heat supplied to the gas in this process is 25 R. What amount of work (in joules) Temperature of 1 mole of an ideal gas is increased from 300 K to 310 K under isochoric process. [...]
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Tags: Temperature of 1 mole of an ideal gas is increased from 300 K to 310 K under isochoric process. Heat supplied to the gas in this process is 25 R. What amount of work (in joules) ,
A gas undergoes a change of state during which 100 J of heat is supplied to it and it does 20 J of work. The system is brought back to its original state through a process during
29
Oct
A gas undergoes a change of state during which 100 J of heat is supplied to it and it does 20 J of work. The system is brought back to its original state through a process during A gas undergoes a change of state during which 100 J of heat is supplied to it and [...]
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Tags: A gas undergoes a change of state during which 100 J of heat is supplied to it and it does 20 J of work. The system is brought back to its original state through a process during ,
Calculate the heat absorbed by a system in going through the cyclic process shown in the given figure.
29
Oct
Calculate the heat absorbed by a system in going through the cyclic process shown in the given figure. Calculate the heat absorbed by a system in going through the cyclic process shown in the given figure. October 29, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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A gaseous mixture enclosed in a vessel consists of 1 g mole of a gas A with gama = 5/3 and another B with gama = 7/5 at a temperature T. The gases A and B do not react with
29
Oct
A gaseous mixture enclosed in a vessel consists of 1 g mole of a gas A with gama = 5/3 and another B with gama = 7/5 at a temperature T. The gases A and B do not react with A gaseous mixture enclosed in a vessel consists of 1 g mole of a gas [...]
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Tags: A gaseous mixture enclosed in a vessel consists of 1 g mole of a gas A with gama = 5/3 and another B with gama = 7/5 at a temperature T. The gases A and B do not react with ,
Heat Q = 3/2 RT is supplied to 4 moles of an ideal diatomic gas at temperature T, which remains constant. Number of moles of the gas dissolved into atoms is
29
Oct
Heat Q = 3/2 RT is supplied to 4 moles of an ideal diatomic gas at temperature T, which remains constant. Number of moles of the gas dissolved into atoms is Heat Q = 3/2 RT is supplied to 4 moles of an ideal diatomic gas at temperature T which remains constant. Number of moles [...]
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Tags: Heat Q = 3/2 RT is supplied to 4 moles of an ideal diatomic gas at temperature T , which remains constant. Number of moles of the gas dissolved into atoms is ,