The mass of flue gas per kg of fuel is the ratio of the

Engineering Thermodynamics
The mass of flue gas per kg of fuel is the ratio of the

Mass of oxygen in 1 kg of fuel to the mass of oxygen in 1 kg of flue gas

Mass of oxygen in 1 kg of flue gas to the mass of oxygen in 1 kg of fuel

Mass of carbon in 1 kg of flue gas to the mass of carbon in 1 kg of fuel

Mass of carbon in 1 kg of fuel to the mass of carbon in 1 kg of flue gas

Mass of oxygen in 1 kg of fuel to the mass of oxygen in 1 kg of flue gas

Mass of oxygen in 1 kg of flue gas to the mass of oxygen in 1 kg of fuel

Mass of carbon in 1 kg of flue gas to the mass of carbon in 1 kg of fuel

Mass of carbon in 1 kg of fuel to the mass of carbon in 1 kg of flue gas

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Engineering Thermodynamics
The increase in entropy of a system represents

Degradation of energy

Increase in temperature

Decrease in pressure

Increase in availability of energy

Degradation of energy

Increase in temperature

Decrease in pressure

Increase in availability of energy

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Engineering Thermodynamics
The general law of expansion or compression is pvn = C, The process is said to be hyperbolic, if n is equal to

γ

∝

1

γ

∝

1

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Engineering Thermodynamics
The variables which control the physical properties of a perfect gas are

All of these

Volume occupied by the gas

Pressure exerted by the gas

Temperature of the gas

All of these

Volume occupied by the gas

Pressure exerted by the gas

Temperature of the gas

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Engineering Thermodynamics
The temperature at which the volume of a gas becomes zero is called

Absolute zero temperature

Absolute temperature

Absolute scale of temperature

None of these

Absolute zero temperature

Absolute temperature

Absolute scale of temperature

None of these

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Engineering Thermodynamics
Energy can neither be created nor destroyed but can be converted from one form to other is inferred from

First law of thermodynamics

Zeroth low of thermodynamic

Second law to thermodynamics

Basic law of thermodynamics

First law of thermodynamics

Zeroth low of thermodynamic

Second law to thermodynamics

Basic law of thermodynamics

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Engineering Thermodynamics

Engineering Thermodynamics The mass of flue gas per kg of fuel is the ratio of the

Engineering Thermodynamics The increase in entropy of a system represents

Engineering Thermodynamics The general law of expansion or compression is pvn = C, The process is said to be hyperbolic, if n is equal to

Engineering Thermodynamics The variables which control the physical properties of a perfect gas are

Engineering Thermodynamics The temperature at which the volume of a gas becomes zero is called

Engineering Thermodynamics Energy can neither be created nor destroyed but can be converted from one form to other is inferred from

Engineering Thermodynamics
The mass of flue gas per kg of fuel is the ratio of the

Engineering Thermodynamics
The increase in entropy of a system represents

Engineering Thermodynamics
The general law of expansion or compression is pvn = C, The process is said to be hyperbolic, if n is equal to

Engineering Thermodynamics
The variables which control the physical properties of a perfect gas are

Engineering Thermodynamics
The temperature at which the volume of a gas becomes zero is called

Engineering Thermodynamics
Energy can neither be created nor destroyed but can be converted from one form to other is inferred from