The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)

Engineering Thermodynamics
The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)

1 - (T2/T1)

1 - (T1/T2)

1 + (T2/T1)

(T1/T2) - 1

1 - (T2/T1)

1 - (T1/T2)

1 + (T2/T1)

(T1/T2) - 1

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

Pressure exerted by the gas

All of these

Temperature of the gas

Volume occupied by the gas

Pressure exerted by the gas

All of these

Temperature of the gas

Volume occupied by the gas

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Engineering Thermodynamics
The volumetric or molar specific heat at constant pressure is the product of

Molecular mass of the gas and the specific heat at constant volume

Molecular mass of the gas and the gas constant

Atomic mass of the gas and the gas constant

None of the listed here

Molecular mass of the gas and the specific heat at constant volume

Molecular mass of the gas and the gas constant

Atomic mass of the gas and the gas constant

None of the listed here

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

Joule cycle

Stirling cycle

Carnot cycle

Ericsson cycle

Joule cycle

Stirling cycle

Carnot cycle

Ericsson cycle

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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

1400 K

800 K

1200 K

1000 K

1400 K

800 K

1200 K

1000 K

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Engineering Thermodynamics
An open system is one in which

Neither mass nor energy crosses 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

Both energy and mass cross the boundaries of the system

Neither mass nor energy crosses 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

Both energy and mass cross the boundaries of the system

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Engineering Thermodynamics

Engineering Thermodynamics The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)

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

Engineering Thermodynamics The volumetric or molar specific heat at constant pressure is the product of

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

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 An open system is one in which

Engineering Thermodynamics
The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)

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

Engineering Thermodynamics
The volumetric or molar specific heat at constant pressure is the product of

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

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
An open system is one in which