All perfect gases change in volume by 1/273th of its original volume at 0°C for every 1°C change in temperature, when the pressure remains constant. This statement is called

Engineering Thermodynamics
All perfect gases change in volume by 1/273th of its original volume at 0°C for every 1°C change in temperature, when the pressure remains constant. This statement is called

Joule's law

Gay-Lussac law

Boyle's law

Charles' law

Joule's law

Gay-Lussac law

Boyle's law

Charles' law

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Engineering Thermodynamics
The amount of heat required to raise the temperature of the unit mass of gas through one degree at constant volume, is called

Kilo Joule

Specific heat at constant pressure

Specific heat at constant volume

None of these

Kilo Joule

Specific heat at constant pressure

Specific heat at constant volume

None of these

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Engineering Thermodynamics
Work done is zero for the following process

Throttling

All of the listed here

Free expansion

Constant volume

Throttling

All of the listed here

Free expansion

Constant volume

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Engineering Thermodynamics
On weight basis, air contains following parts of oxygen

23

73

25

21

23

73

25

21

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Engineering Thermodynamics
The heat supplied to the gas at constant volume is (where m = Mass of gas, cv = Specific heat at constant volume, cp = Specific heat at constant pressure, T2 - T1 = Rise in temperature, and R = Gas constant)

mcp (T2 + T1)

mcv (T2 - T1)

mR (T2 - T1)

mcp (T2 - T1)

mcp (T2 + T1)

mcv (T2 - T1)

mR (T2 - T1)

mcp (T2 - T1)

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

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

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Engineering Thermodynamics

Engineering Thermodynamics All perfect gases change in volume by 1/273th of its original volume at 0°C for every 1°C change in temperature, when the pressure remains constant. This statement is called

Engineering Thermodynamics The amount of heat required to raise the temperature of the unit mass of gas through one degree at constant volume, is called

Engineering Thermodynamics Work done is zero for the following process

Engineering Thermodynamics On weight basis, air contains following parts of oxygen

Engineering Thermodynamics The heat supplied to the gas at constant volume is (where m = Mass of gas, cv = Specific heat at constant volume, cp = Specific heat at constant pressure, T2 - T1 = Rise in temperature, and R = Gas constant)

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

Engineering Thermodynamics
All perfect gases change in volume by 1/273th of its original volume at 0°C for every 1°C change in temperature, when the pressure remains constant. This statement is called

Engineering Thermodynamics
The amount of heat required to raise the temperature of the unit mass of gas through one degree at constant volume, is called

Engineering Thermodynamics
Work done is zero for the following process

Engineering Thermodynamics
On weight basis, air contains following parts of oxygen

Engineering Thermodynamics
The heat supplied to the gas at constant volume is (where m = Mass of gas, cv = Specific heat at constant volume, cp = Specific heat at constant pressure, T2 - T1 = Rise in temperature, and R = Gas constant)

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