To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is

Engineering Thermodynamics
To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is

Multiplied by its molecular weight

Divided by its molecular weight

Multiplied by its density

Multiplied by its specific weight

Multiplied by its molecular weight

Divided by its molecular weight

Multiplied by its density

Multiplied by its specific weight

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Engineering Thermodynamics
Brayton cycle consists' of following four processes

Two isentropic and two constant pressures

Two isentropic and two constant volumes

Two isentropic, one constant volume and one constant pressure

Two isothermal and two isentropic

Two isentropic and two constant pressures

Two isentropic and two constant volumes

Two isentropic, one constant volume and one constant pressure

Two isothermal and two isentropic

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Engineering Thermodynamics
The value of specific heat at constant pressure (cp) is __________ that of at constant volume (cv).

More than

Equal to

None of these

Less than

More than

Equal to

None of these

Less than

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Engineering Thermodynamics
Work done in an adiabatic process between a given pair of end states depends on

The value of index ‘n’

The value of heat transferred

The end states only

Particular adiabatic process

The value of index ‘n’

The value of heat transferred

The end states only

Particular adiabatic process

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Engineering Thermodynamics
The universal gas constant (or molar constant) of a gas is the product of

Atomic mass of the gas and the gas constant

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

Molecular mass of the gas and the gas constant

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

Atomic mass of the gas and the gas constant

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

Molecular mass of the gas and the gas constant

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

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Engineering Thermodynamics
Which of the following can be regarded as gas so that gas laws could be applicable, within the commonly encountered temperature limits?

SO₂, NH₃, CO₂, moisture

O₂, N₂, H₂, air

O₂, N₂, water vapour

O₂, N₂, steam, CO₂

SO₂, NH₃, CO₂, moisture

O₂, N₂, H₂, air

O₂, N₂, water vapour

O₂, N₂, steam, CO₂

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Engineering Thermodynamics

Engineering Thermodynamics To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is

Engineering Thermodynamics Brayton cycle consists' of following four processes

Engineering Thermodynamics The value of specific heat at constant pressure (cp) is __________ that of at constant volume (cv).

Engineering Thermodynamics Work done in an adiabatic process between a given pair of end states depends on

Engineering Thermodynamics The universal gas constant (or molar constant) of a gas is the product of

Engineering Thermodynamics Which of the following can be regarded as gas so that gas laws could be applicable, within the commonly encountered temperature limits?

Engineering Thermodynamics
To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is

Engineering Thermodynamics
Brayton cycle consists' of following four processes

Engineering Thermodynamics
The value of specific heat at constant pressure (cp) is __________ that of at constant volume (cv).

Engineering Thermodynamics
Work done in an adiabatic process between a given pair of end states depends on

Engineering Thermodynamics
The universal gas constant (or molar constant) of a gas is the product of

Engineering Thermodynamics
Which of the following can be regarded as gas so that gas laws could be applicable, within the commonly encountered temperature limits?