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For an adiabatic expansion of a perfect gas, the value of Δ P/P is equal to:
10
Sep
For an adiabatic expansion of a perfect gas, the value of Δ P/P is equal to: For an adiabatic expansion of a perfect gas the value of Δ P/P is equal to: September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
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The molar heat capacity for an ideal gas
10
Sep
The molar heat capacity for an ideal gas The molar heat capacity for an ideal gas September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
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A monoatomic gas is supplied heat Q very slowly keeping the pressure constant. The work done by the gas will be
10
Sep
A monoatomic gas is supplied heat Q very slowly keeping the pressure constant. The work done by the gas will be A monoatomic gas is supplied heat Q very slowly keeping the pressure constant. The work done by the gas will be September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - [...]
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Tags: A monoatomic gas is supplied heat Q very slowly keeping the pressure constant. The work done by the gas will be ,
Which of the following is correct regarding adiabatic process
10
Sep
Which of the following is correct regarding adiabatic process Which of the following is correct regarding adiabatic process September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
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P-V diagram of a monoatomic gas is a straight line passing through origins. The molar heat capacity of the gas in the process will be
10
Sep
P-V diagram of a monoatomic gas is a straight line passing through origins. The molar heat capacity of the gas in the process will be P-V diagram of a monoatomic gas is a straight line passing through origins. The molar heat capacity of the gas in the process will be September 10, 2021 Category: Cengage [...]
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A monoatomic gas of n-moles is heated from temperature T_1 to T_2 under two different conditions
10
Sep
A monoatomic gas of n-moles is heated from temperature T_1 to T_2 under two different conditions A monoatomic gas of n-moles is heated from temperature T_1 to T_2 under two different conditions September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
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A rigid container of negligible heat capacity contains one mole of an ideal gas. The temperatures of the gas increases by 1 C if 3.0 cal of heat is added to it. The gas may be
10
Sep
A rigid container of negligible heat capacity contains one mole of an ideal gas. The temperatures of the gas increases by 1 C if 3.0 cal of heat is added to it. The gas may be A rigid container of negligible heat capacity contains one mole of an ideal gas. The temperatures of the gas [...]
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Tags: A rigid container of negligible heat capacity contains one mole of an ideal gas. The temperatures of the gas increases by 1 C if 3.0 cal of heat is added to it. The gas may be ,
Work done by a sample of an ideal gas in a process A is double the work done in another process B. The temperature rises through the same amount in the two processes. If (C_A and C_B) be the molar heat capacities for the two processes,
10
Sep
Work done by a sample of an ideal gas in a process A is double the work done in another process B. The temperature rises through the same amount in the two processes. If (C_A and C_B) be the molar heat capacities for the two processes, 3. The work done in the process AB is [...]
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In case of water, from 0 to 4 degree C
10
Sep
In case of water, from 0 to 4 degree C from 0 to 4 degree C In case of water September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
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The average degree of freedom per molecule for a gas is 6. The gas performs 25J of work when it expands at constant pressure. Find the heat absorbed by the gas:
10
Sep
The average degree of freedom per molecule for a gas is 6. The gas performs 25J of work when it expands at constant pressure. Find the heat absorbed by the gas: The average degree of freedom per molecule for a gas is 6. The gas performs 25J of work when it expands at constant pressure. [...]
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