The polytropic index (n) is given by

Engineering Thermodynamics
The polytropic index (n) is given by

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

log [(p1v1)/(p2v2)]

log (p1p2)/log (v1v2)

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

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

log [(p1v1)/(p2v2)]

log (p1p2)/log (v1v2)

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

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

Product

Ratio

Difference

Sum

Product

Ratio

Difference

Sum

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Engineering Thermodynamics
A gas is compressed in a cylinder by a movable piston to a volume one half its original volume. During the process 300 kJ heat left the gas and internal energy remained same. The work done on gas in Nm will be

30 Nm

300 Nm

3000 Nm

300,000 Nm

30 Nm

300 Nm

3000 Nm

300,000 Nm

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

Maximum temperature is higher

Heat rejection is lower

Expansion and compression are isentropic

Combustion is at constant volume

Maximum temperature is higher

Heat rejection is lower

Expansion and compression are isentropic

Combustion is at constant volume

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Engineering Thermodynamics
The thermodynamic difference between a Rankine cycle working with saturated steam and the Carnot cycle is that

Rankine cycle is hypothetical

A Rankine cycle receives heat at two places

Heat is supplied to water at temperature below the maximum temperature of the cycle

Carnot cycle can't work with saturated steam

Rankine cycle is hypothetical

A Rankine cycle receives heat at two places

Heat is supplied to water at temperature below the maximum temperature of the cycle

Carnot cycle can't work with saturated steam

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Engineering Thermodynamics
Temperature of a gas is produced due to

Its heating value

Repulsion of molecules

Kinetic energy of molecules

Surface tension of molecules

Its heating value

Repulsion of molecules

Kinetic energy of molecules

Surface tension of molecules

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Engineering Thermodynamics

Engineering Thermodynamics The polytropic index (n) is given by

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

Engineering Thermodynamics A gas is compressed in a cylinder by a movable piston to a volume one half its original volume. During the process 300 kJ heat left the gas and internal energy remained same. The work done on gas in Nm will be

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 thermodynamic difference between a Rankine cycle working with saturated steam and the Carnot cycle is that

Engineering Thermodynamics Temperature of a gas is produced due to

Engineering Thermodynamics
The polytropic index (n) is given by

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

Engineering Thermodynamics
A gas is compressed in a cylinder by a movable piston to a volume one half its original volume. During the process 300 kJ heat left the gas and internal energy remained same. The work done on gas in Nm will be

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 thermodynamic difference between a Rankine cycle working with saturated steam and the Carnot cycle is that

Engineering Thermodynamics
Temperature of a gas is produced due to