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

Boyle's law

Gay-Lussac law

Joule's law

Charles' law

Boyle's law

Gay-Lussac law

Joule's law

Charles' law

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Engineering Thermodynamics
If a system after undergoing a series of processes, returns to the initial state then

Process is thermodynamically in equilibrium

Its entropy will change due to irreversibility

Process is executed in closed system cycle

Sum of heat and work transfer will be zero

Process is thermodynamically in equilibrium

Its entropy will change due to irreversibility

Process is executed in closed system cycle

Sum of heat and work transfer will be zero

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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

Isothermal process

Polytropic process

Hyperbolic process

Adiabatic process

Isothermal process

Polytropic process

Hyperbolic process

Adiabatic process

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Engineering Thermodynamics
The main cause for the irreversibility is

All of these

Heat transfer with a finite temperature difference

Mechanical and fluid friction

Unrestricted expansion

All of these

Heat transfer with a finite temperature difference

Mechanical and fluid friction

Unrestricted expansion

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Engineering Thermodynamics
Thermal power plant works on

Carnot cycle

Otto cycle

Joule cycle

Rankine cycle

Carnot cycle

Otto cycle

Joule cycle

Rankine cycle

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Engineering Thermodynamics
The thermodynamic difference between a Rankine cycle working with saturated steam and the Carnot cycle is that

Carnot cycle can't work with saturated steam

A Rankine cycle receives heat at two places

Rankine cycle is hypothetical

Heat is supplied to water at temperature below the maximum temperature of the cycle

Carnot cycle can't work with saturated steam

A Rankine cycle receives heat at two places

Rankine cycle is hypothetical

Heat is supplied to water at temperature below the maximum temperature of the cycle

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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 If a system after undergoing a series of processes, returns to the initial state then

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

Engineering Thermodynamics The main cause for the irreversibility is

Engineering Thermodynamics Thermal power plant works on

Engineering Thermodynamics The thermodynamic difference between a Rankine cycle working with saturated steam and the Carnot cycle is that

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
If a system after undergoing a series of processes, returns to the initial state then

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

Engineering Thermodynamics
The main cause for the irreversibility is

Engineering Thermodynamics
Thermal power plant works on

Engineering Thermodynamics
The thermodynamic difference between a Rankine cycle working with saturated steam and the Carnot cycle is that