The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics
The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Q1 - 2 = dU - W1 - 2

Q1 - 2 = dU/W1 - 2

Q1 - 2 = dU × W1 - 2

Q1 - 2 = dU + W1 - 2

Q1 - 2 = dU - W1 - 2

Q1 - 2 = dU/W1 - 2

Q1 - 2 = dU × W1 - 2

Q1 - 2 = dU + W1 - 2

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Engineering Thermodynamics
A perpetual motion machine is

A non-thermodynamic machine

A thermodynamic machine

A hypothetical machine

A hypothetical machine whose operation would violate the laws of thermodynamics

A non-thermodynamic machine

A thermodynamic machine

A hypothetical machine

A hypothetical machine whose operation would violate the laws of thermodynamics

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

Gas constant

Specific heat at constant pressure

Ratio of two specific heats

Specific heat at constant volume

Gas constant

Specific heat at constant pressure

Ratio of two specific heats

Specific heat at constant volume

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Engineering Thermodynamics
Energy can neither be created nor destroyed but can be converted from one form to other is inferred from

First law of thermodynamics

Zeroth low of thermodynamic

Second law to thermodynamics

Basic law of thermodynamics

First law of thermodynamics

Zeroth low of thermodynamic

Second law to thermodynamics

Basic law of thermodynamics

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Engineering Thermodynamics
The area under the temperature-entropy curve (T – s curve) of any thermodynamic process represents

None of the listed here

Heat absorbed

Either heat absorbed or heat rejected

Heat rejected

None of the listed here

Heat absorbed

Either heat absorbed or heat rejected

Heat rejected

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Engineering Thermodynamics
The hyperbolic process is governed by

Boyle's law

Avogadro's law

Charles' law

Gay-Lussac law

Boyle's law

Avogadro's law

Charles' law

Gay-Lussac law

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Engineering Thermodynamics

Engineering Thermodynamics The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics A perpetual motion machine is

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

Engineering Thermodynamics Energy can neither be created nor destroyed but can be converted from one form to other is inferred from

Engineering Thermodynamics The area under the temperature-entropy curve (T – s curve) of any thermodynamic process represents

Engineering Thermodynamics The hyperbolic process is governed by

Engineering Thermodynamics
The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics
A perpetual motion machine is

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

Engineering Thermodynamics
Energy can neither be created nor destroyed but can be converted from one form to other is inferred from

Engineering Thermodynamics
The area under the temperature-entropy curve (T – s curve) of any thermodynamic process represents

Engineering Thermodynamics
The hyperbolic process is governed by