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When a thermodynamic system is taken from an initial state I to a final stage F along the path IAF, as shown in the given figure the heat energy absorbed by the system is Q=55 J and the work done by the system is W=25 J.
02
Sep
When a thermodynamic system is taken from an initial state I to a final stage F along the path IAF, as shown in the given figure the heat energy absorbed by the system is Q=55 J and the work done by the system is W=25 J. as shown in the given figure the heat energy [...]
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Tags: as shown in the given figure the heat energy absorbed by the system is Q=55 J and the work done by the system is W=25 J. , When a thermodynamic system is taken from an initial state I to a final stage F along the path IAF ,
Figure shows three isotherms at temperature T1=4000k, T2 = 2000k, T3 = 1000k. When one mole of an ideal monoatomic gas is taken through the paths AB, BC, CD and DA, find the change in internal energy
02
Sep
Figure shows three isotherms at temperature T1=4000k, T2 = 2000k, T3 = 1000k. When one mole of an ideal monoatomic gas is taken through the paths AB, BC, CD and DA, find the change in internal energy BC CD and DA Figure shows three isotherms at temperature T1=4000k find the change in internal energy T2 [...]
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Tags: BC , CD and DA , Figure shows three isotherms at temperature T1=4000k , find the change in internal energy , T2 = 2000k , T3 = 1000k. When one mole of an ideal monoatomic gas is taken through the paths AB ,
How much heat energy should be added to the gaseous mixture consisting of one gram of hydrogen and one gram helium to raise its temperature from 0°C to 100°C. (a) at constant volume and
02
Sep
How much heat energy should be added to the gaseous mixture consisting of one gram of hydrogen and one gram helium to raise its temperature from 0°C to 100°C. (a) at constant volume and How much heat energy should be added to the gaseous mixture consisting of one gram of hydrogen and one gram helium [...]
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Tags: How much heat energy should be added to the gaseous mixture consisting of one gram of hydrogen and one gram helium to raise its temperature from 0°C to 100°C. (a) at constant volume and ,
A gaseous mixture enclosed in a vessel consists of one mole of a gas A with γ=(5/3) and some amount of gas B with γ=7/5 at a temperature T. The gases A and B do not react with each other and are assumed to be ideal. Find the number of gram moles of the gas B if γ for the gaseous mixture is
02
Sep
A gaseous mixture enclosed in a vessel consists of one mole of a gas A with γ=(5/3) and some amount of gas B with γ=7/5 at a temperature T. The gases A and B do not react with each other and are assumed to be ideal. Find the number of gram moles of the gas [...]
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Tags: A monoatomic ideal gas is taken in a cylinder. It undergoes through the process ABC as shown in figure. If the temperature at the point A is 300K Find (1) the temperature at points B and C. ,
A monoatomic ideal gas is taken in a cylinder. It undergoes through the process ABC as shown in figure. If the temperature at the point A is 300K Find (1) the temperature at points B and C.
02
Sep
A monoatomic ideal gas is taken in a cylinder. It undergoes through the process ABC as shown in figure. If the temperature at the point A is 300K Find (1) the temperature at points B and C. A monoatomic ideal gas is taken in a cylinder. It undergoes through the process ABC as shown in [...]
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Tags: A monoatomic ideal gas is taken in a cylinder. It undergoes through the process ABC as shown in figure. If the temperature at the point A is 300K Find (1) the temperature at points B and C. ,
An ideal gas is kept in a closed Vessel of volume 0.0083m^3, at a temperature of 300 K and a pressure of 1.6 * 10^6 N/m^2. An amount of 2.49 * 10^4 joule of heat energy is supplied to the gas. Calculate the final
02
Sep
An ideal gas is kept in a closed Vessel of volume 0.0083m^3, at a temperature of 300 K and a pressure of 1.6 * 10^6 N/m^2. An amount of 2.49 * 10^4 joule of heat energy is supplied to the gas. Calculate the final An ideal gas is kept in a closed Vessel of volume [...]
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A ideal gas is kept in closed vessel and an amount Q of heat is added to the gas using a thermodynamic process. In the process gas expand and does a work Q/2 on its surrounding. Find
02
Sep
A ideal gas is kept in closed vessel and an amount Q of heat is added to the gas using a thermodynamic process. In the process gas expand and does a work Q/2 on its surrounding. Find A ideal gas is kept in closed vessel and an amount Q of heat is added to the [...]
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Tags: A ideal gas is kept in closed vessel and an amount Q of heat is added to the gas using a thermodynamic process. In the process gas expand and does a work Q/2 on its surrounding. Find ,
Find the equivalent resistance between A and B.
02
Sep
Find the equivalent resistance between A and B. Find the equivalent resistance between A and B. September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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One mole of an ideal monoatomic gas undergoes the process P=αT^1/2, where alpha is a constant. Find the workdone by the gas if its temperature increases by 50 k.
02
Sep
One mole of an ideal monoatomic gas undergoes the process P=αT^1/2, where alpha is a constant. Find the workdone by the gas if its temperature increases by 50 k. One mole of an ideal monatomic gas undergoes the process P=αT^1/2 where alpha is a constant. Find the workdone by the gas if its temperature increases [...]
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Tags: One mole of an ideal monatomic gas undergoes the process P=αT^1/2 , where alpha is a constant. Find the workdone by the gas if its temperature increases by 50 k. ,
In previous illustration, find the equivalent resistance of the network between 1 and 2.
02
Sep
In previous illustration, find the equivalent resistance of the network between 1 and 2. find the equivalent resistance of the network between 1 and 2. In previous illustration September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: find the equivalent resistance of the network between 1 and 2. , In previous illustration ,