The gas constant (R) is equal to the __________ of two specific heats.

Engineering Thermodynamics
The gas constant (R) is equal to the __________ of two specific heats.

Sum

Product

Difference

Ratio

Sum

Product

Difference

Ratio

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Engineering Thermodynamics
According to Kelvin-Planck’s statement of second law of thermodynamics,

It is impossible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

It is possible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

None of these

It is impossible to construct a device which operates in a cyclic process and produces no effect other than the transfer of heat from a cold body to a hot body

It is impossible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

It is possible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

None of these

It is impossible to construct a device which operates in a cyclic process and produces no effect other than the transfer of heat from a cold body to a hot body

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Engineering Thermodynamics
The efficiency of the dual combustion cycle for the same compression ratio is __________ Diesel cycle.

Less than

None of these

Equal to

Greater than

Less than

None of these

Equal to

Greater than

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Engineering Thermodynamics
Entropy change depends on

Change of temperature

Heat transfer

Thermodynamic state

Mass transfer

Change of temperature

Heat transfer

Thermodynamic state

Mass transfer

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Engineering Thermodynamics
Carnot cycle efficiency is maximum when

Final temperature is 0°K

Final temperature is 0°C

Initial temperature is 0°K

Difference between initial and final temperature is 0°K

Final temperature is 0°K

Final temperature is 0°C

Initial temperature is 0°K

Difference between initial and final temperature is 0°K

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Engineering Thermodynamics
The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)

1 - (T1/T2)

1 + (T2/T1)

1 - (T2/T1)

(T1/T2) - 1

1 - (T1/T2)

1 + (T2/T1)

1 - (T2/T1)

(T1/T2) - 1

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Engineering Thermodynamics

Engineering Thermodynamics The gas constant (R) is equal to the __________ of two specific heats.

Engineering Thermodynamics According to Kelvin-Planck’s statement of second law of thermodynamics,

Engineering Thermodynamics The efficiency of the dual combustion cycle for the same compression ratio is __________ Diesel cycle.

Engineering Thermodynamics Entropy change depends on

Engineering Thermodynamics Carnot cycle efficiency is maximum when

Engineering Thermodynamics The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)

Engineering Thermodynamics
The gas constant (R) is equal to the __________ of two specific heats.

Engineering Thermodynamics
According to Kelvin-Planck’s statement of second law of thermodynamics,

Engineering Thermodynamics
The efficiency of the dual combustion cycle for the same compression ratio is __________ Diesel cycle.

Engineering Thermodynamics
Entropy change depends on

Engineering Thermodynamics
Carnot cycle efficiency is maximum when

Engineering Thermodynamics
The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)