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)

pvm = C

pv = mRT

pv = (RT)m

pv = RTm

pvm = C

pv = mRT

pv = (RT)m

pv = RTm

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Engineering Thermodynamics
A path 1-2-3 is given. A system absorbs 100 kJ as heat and does 60 kJ of work while along the path 1-4-3, it does 20 kJ of work. The heat absorbed during the cycle 1-4-3 is

-140 kJ

-40 kJ

+60 kJ

-80 kJ

-140 kJ

-40 kJ

+60 kJ

-80 kJ

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

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
According to Avogadro’s law

The product of the gas constant and the molecular mass of an ideal gas is constant

The sum of partial pressure of the mixture of two gases is sum of the two

All of these

Equal volumes of all gases, at the same temperature and pressure, contain equal number of molecules

The product of the gas constant and the molecular mass of an ideal gas is constant

The sum of partial pressure of the mixture of two gases is sum of the two

All of these

Equal volumes of all gases, at the same temperature and pressure, contain equal number of molecules

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Engineering Thermodynamics
One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

800 K

1000 K

1200 K

1400 K

800 K

1000 K

1200 K

1400 K

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Engineering Thermodynamics
The entropy of water at 0°C is assumed to be

1

2

-1

1

2

-1

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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 A path 1-2-3 is given. A system absorbs 100 kJ as heat and does 60 kJ of work while along the path 1-4-3, it does 20 kJ of work. The heat absorbed during the cycle 1-4-3 is

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

Engineering Thermodynamics According to Avogadro’s law

Engineering Thermodynamics One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

Engineering Thermodynamics The entropy of water at 0°C is assumed to be

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

Engineering Thermodynamics
A path 1-2-3 is given. A system absorbs 100 kJ as heat and does 60 kJ of work while along the path 1-4-3, it does 20 kJ of work. The heat absorbed during the cycle 1-4-3 is

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

Engineering Thermodynamics
According to Avogadro’s law

Engineering Thermodynamics
One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

Engineering Thermodynamics
The entropy of water at 0°C is assumed to be