A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

Engineering Thermodynamics
A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

84 kJ

114 kJ

54 kJ

30 kJ

84 kJ

114 kJ

54 kJ

30 kJ

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Engineering Thermodynamics
The universal gas constant (or molar constant) of a gas is the product of

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

Atomic mass of the gas and the gas constant

Molecular mass of the gas and the gas constant

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

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

Atomic mass of the gas and the gas constant

Molecular mass of the gas and the gas constant

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

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Engineering Thermodynamics
A process, in which the temperature of the working substance remains constant during its expansion or compression, is called

Adiabatic process

Isothermal process

Hyperbolic process

Polytropic process

Adiabatic process

Isothermal process

Hyperbolic process

Polytropic process

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Engineering Thermodynamics
The index of compression ‘n’ tends to reach ratio of specific heats ‘y’ when

Process is isothermal

Process is isentropic and specific heat does not change with temperature

Process is isentropic

Flow is uniform and steady

Process is isothermal

Process is isentropic and specific heat does not change with temperature

Process is isentropic

Flow is uniform and steady

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Engineering Thermodynamics
A series of operations, which takes place in a certain order and restore the initial conditions at the end, is known as

None of these

Thermodynamic cycle

Irreversible cycle

Reversible cycle

None of these

Thermodynamic cycle

Irreversible cycle

Reversible cycle

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Engineering Thermodynamics
Mixture of ice and water form a

Isolated system

Heterogeneous system

Open system

Closed system

Isolated system

Heterogeneous system

Open system

Closed system

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Engineering Thermodynamics

Engineering Thermodynamics A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

Engineering Thermodynamics The universal gas constant (or molar constant) of a gas is the product of

Engineering Thermodynamics A process, in which the temperature of the working substance remains constant during its expansion or compression, is called

Engineering Thermodynamics The index of compression ‘n’ tends to reach ratio of specific heats ‘y’ when

Engineering Thermodynamics A series of operations, which takes place in a certain order and restore the initial conditions at the end, is known as

Engineering Thermodynamics Mixture of ice and water form a

Engineering Thermodynamics
A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

Engineering Thermodynamics
The universal gas constant (or molar constant) of a gas is the product of

Engineering Thermodynamics
A process, in which the temperature of the working substance remains constant during its expansion or compression, is called

Engineering Thermodynamics
The index of compression ‘n’ tends to reach ratio of specific heats ‘y’ when

Engineering Thermodynamics
A series of operations, which takes place in a certain order and restore the initial conditions at the end, is known as

Engineering Thermodynamics
Mixture of ice and water form a