10. Carnot cycle thermal efficiency is increased by reducing lower(sink) temperature 11. A system with higher exergy has more capacity to do work than a system with lower exergy. 12. A diffuser has low pressure at inlet and high pressure at outlet 13. Carnot efficiency equation can also be used to find efficiency of conversion of electrical and/or magnetic energy to work. 14. Quality factor of 0.75 indicates supersaturated vapor 15. Law of conservation of Mass and energy applied to Nozzles and Diffusers indicates that under ideal conditions, the change in kinetic energy of the fluid results in a complimentary change in enthalpy of the fluid

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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10. Carnot cycle thermal efficiency is increased by reducing lower(sink) temperature
11. A system with higher exergy has more capacity to do work than a system with lower exergy.
12. A diffuser has low pressure at inlet and high pressure at outlet
13. Carnot efficiency equation can also be used to find efficiency of conversion of electrical
and/or magnetic energy to work.
14. Quality factor of 0.75 indicates supersaturated vapor
15. Law of conservation of Mass and energy applied to Nozzles and Diffusers indicates that
under ideal conditions, the change in kinetic energy of the fluid results in a complimentary
change in enthalpy of the fluid
Transcribed Image Text:10. Carnot cycle thermal efficiency is increased by reducing lower(sink) temperature 11. A system with higher exergy has more capacity to do work than a system with lower exergy. 12. A diffuser has low pressure at inlet and high pressure at outlet 13. Carnot efficiency equation can also be used to find efficiency of conversion of electrical and/or magnetic energy to work. 14. Quality factor of 0.75 indicates supersaturated vapor 15. Law of conservation of Mass and energy applied to Nozzles and Diffusers indicates that under ideal conditions, the change in kinetic energy of the fluid results in a complimentary change in enthalpy of the fluid
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