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

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

(T1/T2) - 1

1 + (T2/T1)

1 - (T2/T1)

1 - (T1/T2)

(T1/T2) - 1

1 + (T2/T1)

1 - (T2/T1)

1 - (T1/T2)

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

Constant temperature

Constant volume

Constant entropy

Constant pressure

Constant temperature

Constant volume

Constant entropy

Constant pressure

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Engineering Thermodynamics
For same compression ratio and for same heat added

Otto cycle is more efficient than Diesel cycle

Both Otto and Diesel cycles are equally efficient

Efficiency depends on other factors

Diesel cycle is more efficient than Otto cycle

Otto cycle is more efficient than Diesel cycle

Both Otto and Diesel cycles are equally efficient

Efficiency depends on other factors

Diesel cycle is more efficient than Otto cycle

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Engineering Thermodynamics
In a Carnot cycle, heat is transferred at

Constant temperature

Constant volume

Constant enthalpy

Constant pressure

Constant temperature

Constant volume

Constant enthalpy

Constant pressure

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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

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

All of these

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

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

All of these

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

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Engineering Thermodynamics
Heat and work are

Point functions

Path functions

Intensive properties

System properties

Point functions

Path functions

Intensive properties

System properties

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Engineering Thermodynamics

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

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

Engineering Thermodynamics For same compression ratio and for same heat added

Engineering Thermodynamics In a Carnot cycle, heat is transferred at

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

Engineering Thermodynamics Heat and work are

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

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

Engineering Thermodynamics
For same compression ratio and for same heat added

Engineering Thermodynamics
In a Carnot cycle, heat is transferred at

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

Engineering Thermodynamics
Heat and work are