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

pvm = C

pv = mRT

pv = (RT)m

pv = RTm

pvm = C

pv = mRT

pv = (RT)m

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Engineering Thermodynamics
A closed system is one in which

Neither mass nor energy crosses the boundaries of the system

Both energy and mass cross the boundaries of the system

Mass does not cross boundaries of the system, though energy may do so

Mass crosses the boundary but not the energy

Neither mass nor energy crosses the boundaries of the system

Both energy and mass cross the boundaries of the system

Mass does not cross boundaries of the system, though energy may do so

Mass crosses the boundary but not the energy

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Engineering Thermodynamics
Mond gas is obtained by

Passing air and a large amount of steam over waste coal at about 650°C

Carbonisation of bituminous coal

Partial combustion of coal, coke, anthracite coal or charcoal in a mixed air steam blast

Passing steam over incandescent coke

Passing air and a large amount of steam over waste coal at about 650°C

Carbonisation of bituminous coal

Partial combustion of coal, coke, anthracite coal or charcoal in a mixed air steam blast

Passing steam over incandescent coke

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Engineering Thermodynamics
The total energy of a molecule is shared equally by the various degrees of freedom possessed by it. This law is known as

Law of degradation of energy

Law of equipartition of energy

Law of conservation of energy

None of the listed here

Law of degradation of energy

Law of equipartition of energy

Law of conservation of energy

None of the listed here

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Engineering Thermodynamics
The specific heat of air increases with increase in

Pressure

Variation of its constituents

Temperature

Both pressure and temperature

Pressure

Variation of its constituents

Temperature

Both pressure and temperature

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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)

mcv (T2 - T1)

mR (T2 - T1)

mcp (T2 + T1)

mcp (T2 - T1)

mcv (T2 - T1)

mR (T2 - T1)

mcp (T2 + T1)

mcp (T2 - T1)

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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 closed system is one in which

Engineering Thermodynamics Mond gas is obtained by

Engineering Thermodynamics The total energy of a molecule is shared equally by the various degrees of freedom possessed by it. This law is known as

Engineering Thermodynamics The specific heat of air increases with increase in

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

Engineering Thermodynamics
A closed system is one in which

Engineering Thermodynamics
Mond gas is obtained by

Engineering Thermodynamics
The total energy of a molecule is shared equally by the various degrees of freedom possessed by it. This law is known as

Engineering Thermodynamics
The specific heat of air increases with increase in

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)