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)

(v1 + v2)/v2

v2/v1

(v1 + v2)/v1

v1/v2

(v1 + v2)/v2

v2/v1

(v1 + v2)/v1

v1/v2

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Engineering Thermodynamics
Measurement of temperature is based on

First law of thermodynamics

Thermodynamic properties

Second law of thermodynamics

Zeroth law of thermodynamics

First law of thermodynamics

Thermodynamic properties

Second law of thermodynamics

Zeroth law of thermodynamics

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Engineering Thermodynamics
The volumetric or molar specific heat at constant pressure is the product of

None of the listed here

Atomic mass of the gas and the gas constant

Molecular mass of the gas and the gas constant

Molecular mass of the gas and the specific heat at constant volume

None of the listed here

Atomic mass of the gas and the gas constant

Molecular mass of the gas and the gas constant

Molecular mass of the gas and the specific heat at constant volume

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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

Cracking

Fractional distillation

Full distillation

Carbonisation

Cracking

Fractional distillation

Full distillation

Carbonisation

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Engineering Thermodynamics
Relation between cp and cv is given by (where cp = Specific heat at constant pressure, cv = Specific heat at constant volume, γ = cp/cv, known as adiabatic index, and R = Gas constant)

cv = R/ γ-1

cv/ cp =R

Both (B) and (C)

cp - cv = R

cv = R/ γ-1

cv/ cp =R

Both (B) and (C)

cp - cv = R

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Engineering Thermodynamics
When the gas is heated at constant pressure, the heat supplied

Increases the internal energy of the gas

Increases the temperature of the gas

Does some external work during expansion

Both (B) and (C)

Increases the internal energy of the gas

Increases the temperature of the gas

Does some external work during expansion

Both (B) and (C)

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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 Measurement of temperature is based on

Engineering Thermodynamics The volumetric or molar specific heat at constant pressure is the product of

Engineering Thermodynamics Relation between cp and cv is given by (where cp = Specific heat at constant pressure, cv = Specific heat at constant volume, γ = cp/cv, known as adiabatic index, and R = Gas constant)

Engineering Thermodynamics When the gas is heated at constant pressure, the heat supplied

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
Measurement of temperature is based on

Engineering Thermodynamics
The volumetric or molar specific heat at constant pressure is the product of

Engineering Thermodynamics
Relation between cp and cv is given by (where cp = Specific heat at constant pressure, cv = Specific heat at constant volume, γ = cp/cv, known as adiabatic index, and R = Gas constant)

Engineering Thermodynamics
When the gas is heated at constant pressure, the heat supplied