QUESTION 1 Match the laws accordingly. | 1st law of thermodynamics A. No Heat Engine can be more efficient than a Reversible Heat Engine operating between the same temperature limits 2nd law of thermodynamics (foward engine) B. The internal energy of a perfect gas is a function of the absolute temperature only c. When a system undergoes a complete cycle, the net Heat supplied plus the net Work input is zero. Joules law 3rd law of thermodynamics 2nd law of thermodynamics (reverse engine) D. It is impossible to construct a device that operating in a cycle will produce no effect other than the transfer of heat from a cooler to a hotter body. E. A pure crystalline substance at absolute zero temperature is in perfect order, and its entropy is zero Second law of thermodynamics (Carnot) F. It is impossible for a heat engine to produce a net work output in a complete cycle if it exchanges heat only with a single energy reservoir.

QUESTION 1 Match the laws accordingly. | 1st law of thermodynamics A. No Heat Engine can be more efficient than a Reversible Heat Engine operating between the same temperature limits 2nd law of thermodynamics (foward engine) B. The internal energy of a perfect gas is a function of the absolute temperature only c. When a system undergoes a complete cycle, the net Heat supplied plus the net Work input is zero. Joules law 3rd law of thermodynamics 2nd law of thermodynamics (reverse engine) D. It is impossible to construct a device that operating in a cycle will produce no effect other than the transfer of heat from a cooler to a hotter body. E. A pure crystalline substance at absolute zero temperature is in perfect order, and its entropy is zero Second law of thermodynamics (Carnot) F. It is impossible for a heat engine to produce a net work output in a complete cycle if it exchanges heat only with a single energy reservoir.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Section: Chapter Questions

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Basic Thermodynamic Processes

The word 'thermodynamics' can be divided into two words, 'thermo' and 'dynamics'. The word thermo deals with the heat and thermal phenomenon, whereas dynamics deals with forces or external agent that drives the heat flow or aids in the motion of heat.

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