The expansion ratio (r) is the ratio of (where v1 = Volume at the beginning of expansion, and v2 = Volume at the end of expansion)

Engineering Thermodynamics
The expansion ratio (r) is the ratio of (where v1 = Volume at the beginning of expansion, and v2 = Volume at the end of expansion)

v2/v1

v1/v2

(v1 + v2)/v2

(v1 + v2)/v1

v2/v1

v1/v2

(v1 + v2)/v2

(v1 + v2)/v1

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Engineering Thermodynamics
The general law for the expansion or compression of gases, is

pv = C

pvγ = C

pv = m R T

pvn = C

pv = C

pvγ = C

pv = m R T

pvn = C

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Engineering Thermodynamics
The heating of a gas at constant pressure is governed by

Boyle's law

Charles' law

Avogadro's law

Gay-Lussac law

Boyle's law

Charles' law

Avogadro's law

Gay-Lussac law

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Engineering Thermodynamics
Otto cycle consists of

Two constant pressure and two isentropic processes

One constant pressure, one constant volume and two isentropic processes

Two constant volume and two isothermal processes

Two constant volume and two isentropic processes

Two constant pressure and two isentropic processes

One constant pressure, one constant volume and two isentropic processes

Two constant volume and two isothermal processes

Two constant volume and two isentropic processes

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

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

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

Free expansion or friction resisted expansion/compression process should not be encountered

All of these

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

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

Free expansion or friction resisted expansion/compression process should not be encountered

All of these

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Engineering Thermodynamics
A process, in which the gas is heated or expanded in such a way that the product of its pressure and volume remains constant, is called

Adiabatic process

Polytropic process

Isothermal process

Hyperbolic process

Adiabatic process

Polytropic process

Isothermal process

Hyperbolic process

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Engineering Thermodynamics

Engineering Thermodynamics The expansion ratio (r) is the ratio of (where v1 = Volume at the beginning of expansion, and v2 = Volume at the end of expansion)

Engineering Thermodynamics The general law for the expansion or compression of gases, is

Engineering Thermodynamics The heating of a gas at constant pressure is governed by

Engineering Thermodynamics Otto cycle consists of

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

Engineering Thermodynamics A process, in which the gas is heated or expanded in such a way that the product of its pressure and volume remains constant, is called

Engineering Thermodynamics
The expansion ratio (r) is the ratio of (where v1 = Volume at the beginning of expansion, and v2 = Volume at the end of expansion)

Engineering Thermodynamics
The general law for the expansion or compression of gases, is

Engineering Thermodynamics
The heating of a gas at constant pressure is governed by

Engineering Thermodynamics
Otto cycle consists of

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

Engineering Thermodynamics
A process, in which the gas is heated or expanded in such a way that the product of its pressure and volume remains constant, is called