Intensive property of a system is one whose value

Engineering Thermodynamics
Intensive property of a system is one whose value

Does not depend on the mass of the system, like temperature, pressure, etc.

Is not dependent on the path followed but on the state

Depends on the mass of the system, like volume

Is dependent on the path followed and not on the state

Does not depend on the mass of the system, like temperature, pressure, etc.

Is not dependent on the path followed but on the state

Depends on the mass of the system, like volume

Is dependent on the path followed and not on the state

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Engineering Thermodynamics
Gases have

Under some conditions one value and sometimes two values of specific heat

Two values of specific heat

No value of specific heat

Only one value of specific heat

Under some conditions one value and sometimes two values of specific heat

Two values of specific heat

No value of specific heat

Only one value of specific heat

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Engineering Thermodynamics
Carbonization of coal consists of

Heating the wood with a limited supply of air to temperature not less than 280°C

None of these

Moulding the finely ground coal under pressure with or without a binding material

Drying and crushing the coal to a fine powder

Heating the wood with a limited supply of air to temperature not less than 280°C

None of these

Moulding the finely ground coal under pressure with or without a binding material

Drying and crushing the coal to a fine powder

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Engineering Thermodynamics
The air standard efficiency of an Otto cycle is given by (where r = Compression ratio, and γ = Ratio of specific heats)

1 - (1/ rγ - 1)

1 - rγ - 1

1 + (1/ rγ - 1)

1 + rγ - 1

1 - (1/ rγ - 1)

1 - rγ - 1

1 + (1/ rγ - 1)

1 + rγ - 1

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Engineering Thermodynamics
Change in internal energy in a closed system is equal to heat transferred if the reversible process takes place at constant

Volume

Internal energy

Pressure

Temperature

Volume

Internal energy

Pressure

Temperature

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Engineering Thermodynamics
The heating of gas at constant volume 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

Engineering Thermodynamics Intensive property of a system is one whose value

Engineering Thermodynamics Gases have

Engineering Thermodynamics Carbonization of coal consists of

Engineering Thermodynamics The air standard efficiency of an Otto cycle is given by (where r = Compression ratio, and γ = Ratio of specific heats)

Engineering Thermodynamics Change in internal energy in a closed system is equal to heat transferred if the reversible process takes place at constant

Engineering Thermodynamics The heating of gas at constant volume is governed by

Engineering Thermodynamics
Intensive property of a system is one whose value

Engineering Thermodynamics
Gases have

Engineering Thermodynamics
Carbonization of coal consists of

Engineering Thermodynamics
The air standard efficiency of an Otto cycle is given by (where r = Compression ratio, and γ = Ratio of specific heats)

Engineering Thermodynamics
Change in internal energy in a closed system is equal to heat transferred if the reversible process takes place at constant

Engineering Thermodynamics
The heating of gas at constant volume is governed by