Chapter 15 – Thermodynamics

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1 mole of an ideal gas with γ=1.4 is adiabatically compressed so that its temperature rises from 27 C to 35 C. The change in internal energy of the gas is (R= 8.3 Joule mole^−1 K^−1 )
12
Sep
1 mole of an ideal gas with γ=1.4 is adiabatically compressed so that its temperature rises from 27 C to 35 C. The change in internal energy of the gas is (R= 8.3 Joule mole^−1 K^−1 ) 1 mole of an ideal gas with γ=1.4 is adiabatically compressed so that its temperature rises from 27 [...]
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Tags: 1 mole of an ideal gas with γ=1.4 is adiabatically compressed so that its temperature rises from 27 C to 35 C. The change in internal energy of the gas is (R= 8.3 Joule mole^−1 K^−1 ) ,
If quantity of heat 1163.4 J supplied to one mole of nitrogen gas, at room temperature at constant pressure, then the rise in temperature is
12
Sep
If quantity of heat 1163.4 J supplied to one mole of nitrogen gas, at room temperature at constant pressure, then the rise in temperature is at room temperature at constant pressure If quantity of heat 1163.4 J supplied to one mole of nitrogen gas then the rise in temperature is September 12, 2021 Category: Chapter [...]
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Tags: at room temperature at constant pressure , If quantity of heat 1163.4 J supplied to one mole of nitrogen gas , then the rise in temperature is ,
If the amount of heat given to a system is 35J and the amount of work done on the system is 15J, then the change in internal energy of the system is
12
Sep
If the amount of heat given to a system is 35J and the amount of work done on the system is 15J, then the change in internal energy of the system is If the amount of heat given to a system is 35J and the amount of work done on the system is 15J then [...]
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Tags: If the amount of heat given to a system is 35J and the amount of work done on the system is 15J , then the change in internal energy of the system is ,
Heat is supplied to a diatomic gas at constant pressure. The ratio of Δ Q : Δ U : ΔW is :
12
Sep
Heat is supplied to a diatomic gas at constant pressure. The ratio of Δ Q : Δ U : ΔW is : Heat is supplied to a diatomic gas at constant pressure. The ratio of Δ Q : Δ U : ΔW is : September 12, 2021 Category: Chapter 15 - Thermodynamics , MTG NEET [...]
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Tags: Heat is supplied to a diatomic gas at constant pressure. The ratio of Δ Q : Δ U : ΔW is : ,
When a system is taken from state a to state b along the path acb as shown in figure, 60 J of heat flows into the system and 30 J of work is done by the system. Along the path adb, if the work done by the system is 10 J, heat flow into the system is
12
Sep
When a system is taken from state a to state b along the path acb as shown in figure, 60 J of heat flows into the system and 30 J of work is done by the system. Along the path adb, if the work done by the system is 10 J, heat flow into the [...]
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Tags: 60 J of heat flows into the system and 30 J of work is done by the system. Along the path adb , heat flow into the system is , if the work done by the system is 10 J , When a system is taken from state a to state b along the path acb as shown in figure ,
A system is taken from state A to state B along two different paths 1 and 2. The heat absorbed and work done by the system along these two paths are Q1 and Q2, and W1 and W2 respectively.
12
Sep
A system is taken from state A to state B along two different paths 1 and 2. The heat absorbed and work done by the system along these two paths are Q1 and Q2, and W1 and W2 respectively. A system is taken from state A to state B along two different paths 1 and [...]
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Tags: A system is taken from state A to state B along two different paths 1 and 2. The heat absorbed and work done by the system along these two paths are Q1 and Q2 , and W1 and W2 respectively. ,
For a diatomic gas, change in internal energy for unit change in temperature at constant pressure and volume is delta U1 ​and delta U2 ​ respectively. The ratio of delta U1 : delta U2 is
12
Sep
For a diatomic gas, change in internal energy for unit change in temperature at constant pressure and volume is delta U1 ​and delta U2 ​ respectively. The ratio of delta U1 : delta U2 is change in internal energy for unit change in temperature at constant pressure and volume is delta U1 ​and delta U2 [...]
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Tags: change in internal energy for unit change in temperature at constant pressure and volume is delta U1 ​and delta U2 ​ respectively. The ratio of delta U1 : delta U2 is , For a diatomic gas ,
A gas under constant pressure of 45×10^5pa when subjected to 800 kj of heat, changes the volume from 0.5m^3 to 2.0m^3 . The change in internal energy of the gas is
12
Sep
A gas under constant pressure of 45×10^5pa when subjected to 800 kj of heat, changes the volume from 0.5m^3 to 2.0m^3 . The change in internal energy of the gas is A gas under constant pressure of 45×10^5pa when subjected to 800 kj of heat changes the volume from 0.5m^3 to 2.0m^3 . The change [...]
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Tags: A gas under constant pressure of 45×10^5pa when subjected to 800 kj of heat , changes the volume from 0.5m^3 to 2.0m^3 . The change in internal energy of the gas is ,
When a system is taken from state i to state f along the path iaf, it is found that Q=50 cal and W=20 cal. Along the path ibf Q=36cal. W along the path ibf is
12
Sep
When a system is taken from state i to state f along the path iaf, it is found that Q=50 cal and W=20 cal. Along the path ibf Q=36cal. W along the path ibf is it is found that Q=50 cal and W=20 cal. Along the path ibf Q=36cal. W along the path ibf is [...]
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Tags: it is found that Q=50 cal and W=20 cal. Along the path ibf Q=36cal. W along the path ibf is , When a system is taken from state i to state f along the path iaf ,
A sample of ideal gas (γ=1.4) is heated at constant pressure. If an amount of 100 J heat is supplied to the gas, the work done by the gas is
12
Sep
A sample of ideal gas (γ=1.4) is heated at constant pressure. If an amount of 100 J heat is supplied to the gas, the work done by the gas is A sample of ideal gas (γ=1.4) is heated at constant pressure. If an amount of 100 J heat is supplied to the gas the work [...]
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Tags: A sample of ideal gas (γ=1.4) is heated at constant pressure. If an amount of 100 J heat is supplied to the gas , the work done by the gas is ,