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70 calorie of heat are required to raise the temperature of 2 mole of an ideal gas at constant pressure from 30°C to 35°C. The amount of heat required to raise the temperature of the same gas through the same range at constant volume is
10
Sep
70 calorie of heat are required to raise the temperature of 2 mole of an ideal gas at constant pressure from 30°C to 35°C. The amount of heat required to raise the temperature of the same gas through the same range at constant volume is 3. The work done in the process AB is September [...]
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Tags: 3. The work done in the process AB is ,
A gas, for which gamma is (4)/(3) is heated at constant pressure. The percentage of heat supplied used for external work is.
10
Sep
A gas, for which gamma is (4)/(3) is heated at constant pressure. The percentage of heat supplied used for external work is. A gas for which gamma is (4)/(3) is heated at constant pressure. The percentage of heat supplied used for external work is. September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter [...]
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Tags: A gas , for which gamma is (4)/(3) is heated at constant pressure. The percentage of heat supplied used for external work is. ,
A monatomic gas expands at constant pressure on heating. The percentage of heat supplied that increases the internal energy of the gas and that is involved in the expansion is
10
Sep
A monatomic gas expands at constant pressure on heating. The percentage of heat supplied that increases the internal energy of the gas and that is involved in the expansion is A monatomic gas expands at constant pressure on heating. The percentage of heat supplied that increases the internal energy of the gas and that is [...]
Posted in: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
Tags: A monatomic gas expands at constant pressure on heating. The percentage of heat supplied that increases the internal energy of the gas and that is involved in the expansion is ,
When an ideal diatomic gas is heated at constant pressure, the fraction of the heat energy supplied, which increases the internal energy of the gas, is
10
Sep
When an ideal diatomic gas is heated at constant pressure, the fraction of the heat energy supplied, which increases the internal energy of the gas, is is the fraction of the heat energy supplied When an ideal diatomic gas is heated at constant pressure which increases the internal energy of the gas September 10, 2021 [...]
Posted in: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
Tags: is , the fraction of the heat energy supplied , When an ideal diatomic gas is heated at constant pressure , which increases the internal energy of the gas ,
If one mole of monoatomic gas is mixed with one mole of diatomic gas, what is the value of gamma for the mixture?
10
Sep
If one mole of monoatomic gas is mixed with one mole of diatomic gas, what is the value of gamma for the mixture? If one mole of monoatomic gas is mixed with one mole of diatomic gas what is the value of gamma for the mixture? September 10, 2021 Category: Cengage NEET by C.P Singh [...]
Posted in: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
Tags: If one mole of monoatomic gas is mixed with one mole of diatomic gas , what is the value of gamma for the mixture? ,
Cp ​is always greater than Cv ​for a gas. Which of the following statements provides, partly or wholly, the reason for this?
10
Sep
Cp ​is always greater than Cv ​for a gas. Which of the following statements provides, partly or wholly, the reason for this? Cp ​is always greater than Cv ​for a gas. Which of the following statements provides partly or wholly the reason for this? September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter [...]
Posted in: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
Tags: Cp ​is always greater than Cv ​for a gas. Which of the following statements provides , partly or wholly , the reason for this? ,
The ratio Cc/Cp ​= γ for gas. Its molecular weight is ‘M’. Its specific heat capacity at constant pressure is :
10
Sep
The ratio Cc/Cp ​= γ for gas. Its molecular weight is ‘M’. Its specific heat capacity at constant pressure is : The ratio Cc/Cp ​= γ for gas. Its molecular weight is 'M'. Its specific heat capacity at constant pressure is : September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - [...]
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Tags: The ratio Cc/Cp ​= γ for gas. Its molecular weight is 'M'. Its specific heat capacity at constant pressure is : ,
If for hydrogen s_p – s_v = a and oxygen s_p -s_v = b, where s_p and s_v refer to specific heats at constant pressure and at constant volume then
10
Sep
If for hydrogen s_p – s_v = a and oxygen s_p -s_v = b, where s_p and s_v refer to specific heats at constant pressure and at constant volume then If for hydrogen s_p - s_v = a and oxygen s_p -s_v = b where s_p and s_v refer to specific heats at constant pressure [...]
Posted in: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
Tags: If for hydrogen s_p - s_v = a and oxygen s_p -s_v = b , where s_p and s_v refer to specific heats at constant pressure and at constant volume then ,
A mixture of n1 moles of monoatomic gas and n2 moles of diatomic gas has gamma = 1.5 .
10
Sep
A mixture of n1 moles of monoatomic gas and n2 moles of diatomic gas has gamma = 1.5 . A mixture of n1 moles of monoatomic gas and n2 moles of diatomic gas has gamma = 1.5 . September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , [...]
Posted in: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
Tags: A mixture of n1 moles of monoatomic gas and n2 moles of diatomic gas has gamma = 1.5 . ,
For hydrogen gas C_p – C_v = a and for oxygen gas C_p – C_v = b, C_p and C_v being molar specific heats. The relation between a and b is
10
Sep
For hydrogen gas C_p – C_v = a and for oxygen gas C_p – C_v = b, C_p and C_v being molar specific heats. The relation between a and b is C_p and C_v being molar specific heats. The relation between a and b is For hydrogen gas C_p - C_v = a and for [...]
Posted in: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
Tags: C_p and C_v being molar specific heats. The relation between a and b is , For hydrogen gas C_p - C_v = a and for oxygen gas C_p - C_v = b ,