One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

Engineering Thermodynamics
One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

800 K

1400 K

1000 K

1200 K

800 K

1400 K

1000 K

1200 K

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Engineering Thermodynamics
Otto cycle consists of

Two constant volume and two isothermal processes

One constant pressure, one constant volume and two isentropic processes

Two constant pressure and two isentropic processes

Two constant volume and two isentropic processes

Two constant volume and two isothermal processes

One constant pressure, one constant volume and two isentropic processes

Two constant pressure and two isentropic processes

Two constant volume and two isentropic processes

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Engineering Thermodynamics
A process, in which the temperature of the working substance remains constant during its expansion or compression, is called

Adiabatic process

Isothermal process

Polytropic process

Hyperbolic process

Adiabatic process

Isothermal process

Polytropic process

Hyperbolic process

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Engineering Thermodynamics
The efficiency of the Carnot cycle may be increased by

Increasing the lowest temperature

Decreasing the highest temperature

Keeping the lowest temperature constant

Increasing the highest temperature

Increasing the lowest temperature

Decreasing the highest temperature

Keeping the lowest temperature constant

Increasing the highest temperature

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Engineering Thermodynamics
Temperature of a gas is produced due to

Surface tension of molecules

Kinetic energy of molecules

Repulsion of molecules

Its heating value

Surface tension of molecules

Kinetic energy of molecules

Repulsion of molecules

Its heating value

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Engineering Thermodynamics
An isolated system is one in which

Mass does not cross boundaries of the system, though energy may do so

Neither mass nor energy crosses the boundaries of the system

Mass crosses the boundary but not the energy

Both energy and mass cross the boundaries of the system

Mass does not cross boundaries of the system, though energy may do so

Neither mass nor energy crosses the boundaries of the system

Mass crosses the boundary but not the energy

Both energy and mass cross the boundaries of the system

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Engineering Thermodynamics

Engineering Thermodynamics One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

Engineering Thermodynamics Otto cycle consists of

Engineering Thermodynamics A process, in which the temperature of the working substance remains constant during its expansion or compression, is called

Engineering Thermodynamics The efficiency of the Carnot cycle may be increased by

Engineering Thermodynamics Temperature of a gas is produced due to

Engineering Thermodynamics An isolated system is one in which

Engineering Thermodynamics
One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

Engineering Thermodynamics
Otto cycle consists of

Engineering Thermodynamics
A process, in which the temperature of the working substance remains constant during its expansion or compression, is called

Engineering Thermodynamics
The efficiency of the Carnot cycle may be increased by

Engineering Thermodynamics
Temperature of a gas is produced due to

Engineering Thermodynamics
An isolated system is one in which