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

1200 K

1000 K

800 K

1400 K

1200 K

1000 K

800 K

1400 K

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Engineering Thermodynamics
The property of a working substance which increases or decreases as the heat is supplied or removed in a reversible manner, is known as

Enthalpy

Internal energy

External energy

Entropy

Enthalpy

Internal energy

External energy

Entropy

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Engineering Thermodynamics
The hyperbolic process is governed by

Boyle's law

Gay-Lussac law

Avogadro's law

Charles' law

Boyle's law

Gay-Lussac law

Avogadro's law

Charles' law

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Engineering Thermodynamics
The distillation carried out in such a way that the liquid with the lowest boiling point is first evaporated and re-condensed, then the liquid with the next higher boiling point is then evaporated and re-condensed, and so on until all the available liquid fuels are separately recovered in the sequence of their boiling points. Such a process is called

Fractional distillation

Carbonisation

Full distillation

Cracking

Fractional distillation

Carbonisation

Full distillation

Cracking

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Engineering Thermodynamics
The sum of internal energy (U) and the product of pressure and volume (p.v) is known as

Power

Enthalpy

Work done

Entropy

Power

Enthalpy

Work done

Entropy

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Engineering Thermodynamics
The work ratio of a gas turbine plant is given by

(Isentropic increase in temperature)/(Actual increase in temperature)

(Net work output)/(Work-done by the turbine)

(Actual temperature drop)/(Isentropic temperature drop)

(Net work output)/(Heat supplied)

(Isentropic increase in temperature)/(Actual increase in temperature)

(Net work output)/(Work-done by the turbine)

(Actual temperature drop)/(Isentropic temperature drop)

(Net work output)/(Heat supplied)

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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 The property of a working substance which increases or decreases as the heat is supplied or removed in a reversible manner, is known as

Engineering Thermodynamics The hyperbolic process is governed by

Engineering Thermodynamics The sum of internal energy (U) and the product of pressure and volume (p.v) is known as

Engineering Thermodynamics The work ratio of a gas turbine plant is given by

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
The property of a working substance which increases or decreases as the heat is supplied or removed in a reversible manner, is known as

Engineering Thermodynamics
The hyperbolic process is governed by

Engineering Thermodynamics
The sum of internal energy (U) and the product of pressure and volume (p.v) is known as

Engineering Thermodynamics
The work ratio of a gas turbine plant is given by