Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics
Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Heat rejection is lower

Maximum temperature is higher

Expansion and compression are isentropic

Combustion is at constant volume

Heat rejection is lower

Maximum temperature is higher

Expansion and compression are isentropic

Combustion is at constant volume

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Engineering Thermodynamics
The increase in entropy of a system represents

Decrease in pressure

Degradation of energy

Increase in temperature

Increase in availability of energy

Decrease in pressure

Degradation of energy

Increase in temperature

Increase in availability of energy

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Engineering Thermodynamics
If both Stirling and Carnot cycles operate within the same temperature limits, then efficiency of Stirling cycle as compared to Carnot cycle

More

Depends on other factors

Equal

Less

More

Depends on other factors

Equal

Less

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Engineering Thermodynamics
Kelvin Planck's law deals with

Conversion of work into heat

Conversion of heat into work

Conservation of work

Conservation of heat

Conversion of work into heat

Conversion of heat into work

Conservation of work

Conservation of heat

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Engineering Thermodynamics
When the gas is cooled at constant pressure,

Its volume increases but temperature decreases

Both temperature and volume increases

Both temperature and volume decreases

Its temperature increases but volume decreases

Its volume increases but temperature decreases

Both temperature and volume increases

Both temperature and volume decreases

Its temperature increases but volume decreases

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Engineering Thermodynamics
The value of the product of molecular weight and the gas characteristic constant for all the gases in M.K.S. unit is

29.27 kgfm/mol °K

427 kgfm/mol °K

8314 kgfm/mol °K

848 kgfm/mol °K

29.27 kgfm/mol °K

427 kgfm/mol °K

8314 kgfm/mol °K

848 kgfm/mol °K

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Engineering Thermodynamics

Engineering Thermodynamics Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics The increase in entropy of a system represents

Engineering Thermodynamics If both Stirling and Carnot cycles operate within the same temperature limits, then efficiency of Stirling cycle as compared to Carnot cycle

Engineering Thermodynamics Kelvin Planck's law deals with

Engineering Thermodynamics When the gas is cooled at constant pressure,

Engineering Thermodynamics The value of the product of molecular weight and the gas characteristic constant for all the gases in M.K.S. unit is

Engineering Thermodynamics
Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics
The increase in entropy of a system represents

Engineering Thermodynamics
If both Stirling and Carnot cycles operate within the same temperature limits, then efficiency of Stirling cycle as compared to Carnot cycle

Engineering Thermodynamics
Kelvin Planck's law deals with

Engineering Thermodynamics
When the gas is cooled at constant pressure,

Engineering Thermodynamics
The value of the product of molecular weight and the gas characteristic constant for all the gases in M.K.S. unit is