The polytropic index (n) is given by

Engineering Thermodynamics
The polytropic index (n) is given by

log [(p1v1)/(p2v2)]

log (p2/ p1)/log (v1/ v2)

log (v1/ v2)/ log (p1/p2)

log (p1p2)/log (v1v2)

log [(p1v1)/(p2v2)]

log (p2/ p1)/log (v1/ v2)

log (v1/ v2)/ log (p1/p2)

log (p1p2)/log (v1v2)

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Engineering Thermodynamics
For the same compression ratio, the efficiency of dual combustion cycle is

Less than Diesel cycle and greater than Otto cycle

Greater than Diesel cycle and less than Otto cycle

Greater than Diesel cycle

Less than Diesel cycle

Less than Diesel cycle and greater than Otto cycle

Greater than Diesel cycle and less than Otto cycle

Greater than Diesel cycle

Less than Diesel cycle

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Engineering Thermodynamics
The total energy of a molecule is shared equally by the various degrees of freedom possessed by it. This law is known as

None of the listed here

Law of degradation of energy

Law of conservation of energy

Law of equipartition of energy

None of the listed here

Law of degradation of energy

Law of conservation of energy

Law of equipartition of energy

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Engineering Thermodynamics
In order that a cycle be reversible, following must be satisfied

Free expansion or friction resisted expansion/compression process should not be encountered

All of these

When beat is being rejected, temperature of cold source and working substance should be same

When heat is being absorbed, temperature of hot source and working substance should be same

Free expansion or friction resisted expansion/compression process should not be encountered

All of these

When beat is being rejected, temperature of cold source and working substance should be same

When heat is being absorbed, temperature of hot source and working substance should be same

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Engineering Thermodynamics
Change in enthalpy of a system is the heat supplied at

Constant temperature

Constant pressure

Constant volume

Constant entropy

Constant temperature

Constant pressure

Constant volume

Constant entropy

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Engineering Thermodynamics
If a gas is heated against a pressure, keeping the volume constant, then work done will be equal to

Zero

Anywhere between zero and infinity

+ve

-ve

Zero

Anywhere between zero and infinity

+ve

-ve

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Engineering Thermodynamics

Engineering Thermodynamics The polytropic index (n) is given by

Engineering Thermodynamics For the same compression ratio, the efficiency of dual combustion cycle is

Engineering Thermodynamics The total energy of a molecule is shared equally by the various degrees of freedom possessed by it. This law is known as

Engineering Thermodynamics In order that a cycle be reversible, following must be satisfied

Engineering Thermodynamics Change in enthalpy of a system is the heat supplied at

Engineering Thermodynamics If a gas is heated against a pressure, keeping the volume constant, then work done will be equal to

Engineering Thermodynamics
The polytropic index (n) is given by

Engineering Thermodynamics
For the same compression ratio, the efficiency of dual combustion cycle is

Engineering Thermodynamics
The total energy of a molecule is shared equally by the various degrees of freedom possessed by it. This law is known as

Engineering Thermodynamics
In order that a cycle be reversible, following must be satisfied

Engineering Thermodynamics
Change in enthalpy of a system is the heat supplied at

Engineering Thermodynamics
If a gas is heated against a pressure, keeping the volume constant, then work done will be equal to