In a reversible adiabatic process, the ratio of T1/T2 is equal to

Engineering Thermodynamics
In a reversible adiabatic process, the ratio of T1/T2 is equal to

(p2/p1)γ - 1/ γ

(v2/v1)γ - 1/ γ

(v1/v2)γ - 1/ γ

(p1/p2)γ - 1/ γ

(p2/p1)γ - 1/ γ

(v2/v1)γ - 1/ γ

(v1/v2)γ - 1/ γ

(p1/p2)γ - 1/ γ

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Engineering Thermodynamics
According to Clausius statement of second law of thermodynamics

Heat can

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

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

Heat can

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

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

Heat can

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Engineering Thermodynamics
The condition of perfect vacuum, i.e., absolute zero pressure can be attained at

A temperature of 0°C

A temperature of - 273.16°C

A negative pressure and 0°C temperature

A temperature of 273 °K

A temperature of 0°C

A temperature of - 273.16°C

A negative pressure and 0°C temperature

A temperature of 273 °K

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Engineering Thermodynamics
During which of the following process does heat rejection takes place in Carnot cycle?

Isentropic expansion

Isothermal expansion

Isothermal compression

Isentropic compression

Isentropic expansion

Isothermal expansion

Isothermal compression

Isentropic compression

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Engineering Thermodynamics
The amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called

None of these

kilo-Joule

Specific heat at constant volume

Specific heat at constant pressure

None of these

kilo-Joule

Specific heat at constant volume

Specific heat at constant pressure

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Engineering Thermodynamics
A process of heating crude oil to a high temperature under a very high pressure to increase the yield of lighter distillates, is known as

Cracking

Fractional distillation

Carbonization

Full distillation

Cracking

Fractional distillation

Carbonization

Full distillation

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Engineering Thermodynamics

Engineering Thermodynamics In a reversible adiabatic process, the ratio of T1/T2 is equal to

Engineering Thermodynamics According to Clausius statement of second law of thermodynamics

Engineering Thermodynamics The condition of perfect vacuum, i.e., absolute zero pressure can be attained at

Engineering Thermodynamics During which of the following process does heat rejection takes place in Carnot cycle?

Engineering Thermodynamics The amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called

Engineering Thermodynamics A process of heating crude oil to a high temperature under a very high pressure to increase the yield of lighter distillates, is known as

Engineering Thermodynamics
In a reversible adiabatic process, the ratio of T1/T2 is equal to

Engineering Thermodynamics
According to Clausius statement of second law of thermodynamics

Engineering Thermodynamics
The condition of perfect vacuum, i.e., absolute zero pressure can be attained at

Engineering Thermodynamics
During which of the following process does heat rejection takes place in Carnot cycle?

Engineering Thermodynamics
The amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called

Engineering Thermodynamics
A process of heating crude oil to a high temperature under a very high pressure to increase the yield of lighter distillates, is known as