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

Gay-Lussac law

Joule's law

Boyle's law

Charles' law

Gay-Lussac law

Joule's law

Boyle's law

Charles' law

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Engineering Thermodynamics
The standard value of atmospheric pressure taken at sea level is

1013 × 102 N/m2

All of these

760 mm of Hg

1.013 bar

1013 × 102 N/m2

All of these

760 mm of Hg

1.013 bar

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Engineering Thermodynamics
According to Clausius statement of second law of thermodynamics

Heat can be transferred for low temperature to high temperature source by using refrigeration cycle

Heat can be transferred from low temperature to high temperature source if COP of process is more than unity

Heat can

Heat can be transferred for low temperature to high temperature source by using refrigeration cycle

Heat can be transferred from low temperature to high temperature source if COP of process is more than unity

Heat can

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Engineering Thermodynamics
A sudden fall in the barometer reading is a sign of approaching

Fine weather

Storm

Cold wave

Rains

Fine weather

Storm

Cold wave

Rains

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Engineering Thermodynamics
Universal gas constant is defined as equal to product of the molecular weight of the gas and

Specific heat at constant pressure

Gas constant

Specific heat at constant volume

Ratio of two specific heats

Specific heat at constant pressure

Gas constant

Specific heat at constant volume

Ratio of two specific heats

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Engineering Thermodynamics
Work-done during adiabatic expansion is given by (where p1 v1, T1 = Pressure, volume and temperature for the initial condition of gas, p2, v2, T2 = Corresponding values for the final condition of gas, R = Gas constant, and γ = Ratio of specific heats)

All of these

[m R (T1 - T2)] /(γ - 1)

[m R T1/(γ - 1)][1 - (p2, v2 /p1 v1)]

(p1 v1 - p2, v2)/(γ - 1)

All of these

[m R (T1 - T2)] /(γ - 1)

[m R T1/(γ - 1)][1 - (p2, v2 /p1 v1)]

(p1 v1 - p2, v2)/(γ - 1)

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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 The standard value of atmospheric pressure taken at sea level is

Engineering Thermodynamics According to Clausius statement of second law of thermodynamics

Engineering Thermodynamics A sudden fall in the barometer reading is a sign of approaching

Engineering Thermodynamics Universal gas constant is defined as equal to product of the molecular weight of the gas and

Engineering Thermodynamics Work-done during adiabatic expansion is given by (where p1 v1, T1 = Pressure, volume and temperature for the initial condition of gas, p2, v2, T2 = Corresponding values for the final condition of gas, R = Gas constant, and γ = Ratio of specific heats)

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
The standard value of atmospheric pressure taken at sea level is

Engineering Thermodynamics
According to Clausius statement of second law of thermodynamics

Engineering Thermodynamics
A sudden fall in the barometer reading is a sign of approaching

Engineering Thermodynamics
Universal gas constant is defined as equal to product of the molecular weight of the gas and

Engineering Thermodynamics
Work-done during adiabatic expansion is given by (where p1 v1, T1 = Pressure, volume and temperature for the initial condition of gas, p2, v2, T2 = Corresponding values for the final condition of gas, R = Gas constant, and γ = Ratio of specific heats)