The general gas equation is (where p = Pressure, v = Volume, m = mass, T = Absolute temperature, and R = Gas constant)

Engineering Thermodynamics
The general gas equation is (where p = Pressure, v = Volume, m = mass, T = Absolute temperature, and R = Gas constant)

pv = RTm

pv = mRT

pvm = C

pv = (RT)m

pv = RTm

pv = mRT

pvm = C

pv = (RT)m

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

Increases the temperature of the gas

Increases the internal energy of the gas

Both (B) and (C)

Does some external work during expansion

Increases the temperature of the gas

Increases the internal energy of the gas

Both (B) and (C)

Does some external work during expansion

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Engineering Thermodynamics
A cycle consisting of two isothermal and two isentropic processes, is known as

Ericsson cycle

Joule cycle

Stirling cycle

Carnot cycle

Ericsson cycle

Joule cycle

Stirling cycle

Carnot cycle

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Engineering Thermodynamics
The natural petroleum may be separated into

Petrol

Fuel oil

Kerosene

Lubricating oil

Petrol

Fuel oil

Kerosene

Lubricating oil

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

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

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

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

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

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

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Engineering Thermodynamics
The mass of excess air supplied is equal to

(23/100) × Mass of excess carbon

(23/100) × Mass of excess oxygen

(100/23) × Mass of excess carbon

(100/23) × Mass of excess oxygen

(23/100) × Mass of excess carbon

(23/100) × Mass of excess oxygen

(100/23) × Mass of excess carbon

(100/23) × Mass of excess oxygen

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Engineering Thermodynamics

Engineering Thermodynamics The general gas equation is (where p = Pressure, v = Volume, m = mass, T = Absolute temperature, and R = Gas constant)

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

Engineering Thermodynamics A cycle consisting of two isothermal and two isentropic processes, is known as

Engineering Thermodynamics The natural petroleum may be separated into

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

Engineering Thermodynamics The mass of excess air supplied is equal to

Engineering Thermodynamics
The general gas equation is (where p = Pressure, v = Volume, m = mass, T = Absolute temperature, and R = Gas constant)

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

Engineering Thermodynamics
A cycle consisting of two isothermal and two isentropic processes, is known as

Engineering Thermodynamics
The natural petroleum may be separated into

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

Engineering Thermodynamics
The mass of excess air supplied is equal to