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

Combustion is at constant volume

Expansion and compression are isentropic

Heat rejection is lower

Maximum temperature is higher

Combustion is at constant volume

Expansion and compression are isentropic

Heat rejection is lower

Maximum temperature is higher

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Engineering Thermodynamics
The heat flows from a cold body to a hot body with the aid of an external source. This statement is given by

Clausis

Joule

Kelvin

Gay-Lussac

Clausis

Joule

Kelvin

Gay-Lussac

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Engineering Thermodynamics
A heat exchange process in which the product of pressure and volume remains constant is known as

Throttling process

Hyperbolic process

Isentropic process

Heat exchange process

Throttling process

Hyperbolic process

Isentropic process

Heat exchange process

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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

Cracking

Full distillation

Fractional distillation

Carbonisation

Cracking

Full distillation

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Engineering Thermodynamics
When two bodies are in thermal equilibrium with a third body, they are also in thermal equilibrium with each other. This statement is called

Zeroth law of thermodynamics

Second law of thermodynamics

Kelvin Planck's law

First law of thermodynamics

Zeroth law of thermodynamics

Second law of thermodynamics

Kelvin Planck's law

First law of thermodynamics

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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

External energy

Enthalpy

Internal energy

Entropy

External energy

Enthalpy

Internal energy

Entropy

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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 heat flows from a cold body to a hot body with the aid of an external source. This statement is given by

Engineering Thermodynamics A heat exchange process in which the product of pressure and volume remains constant is known as

Engineering Thermodynamics When two bodies are in thermal equilibrium with a third body, they are also in thermal equilibrium with each other. This statement is called

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

Engineering Thermodynamics
The heat flows from a cold body to a hot body with the aid of an external source. This statement is given by

Engineering Thermodynamics
A heat exchange process in which the product of pressure and volume remains constant is known as

Engineering Thermodynamics
When two bodies are in thermal equilibrium with a third body, they are also in thermal equilibrium with each other. This statement is called

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