**Entropy Change in Thermal Reservoirs**Heat in the amount of 100 kJ is transferred directly from a hot reservoir at 1350 K (\(T_H\)) to a cold reservoir at 600 K. Calculate the entropy change of the two reservoirs.**Diagram Explanation:**- The diagram shows two reservoirs connected by a heat transfer path.- The top reservoir, labeled with \(T_H\), has a temperature of 1350 K.- The bottom reservoir is at 600 K.- An arrow indicates the transfer of 100 kJ of heat from the top reservoir to the bottom one.The entropy change of the two reservoirs is \(\_\_\_\_\_\_\) kJ/K.Is the increase of entropy principle satisfied?**Options:**(Click to select)

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Answered: Heat in the amount of 100 kJ is…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Hi, can you please help me with this entropy problem so that I can solve similar problems? If you can be clear with the diagrams I would really appreciate it because I review those closely.
Two insulated Tanks are connected with an insulated pipe and a valve. The valve is open and steam flows from Tank A to tank B in a quasi static proccess until the valve is closed. The specific entropy in each tank is maintained the same, but the total entropy in the system is changed , explain why .
A- Air at 15°C and 1bar occupies 0.02 m³. The air is heated at constant volume until the pressure is 5bar, and then cooled at constant pressure back to the original temperature. Calculate the net heat flow to or from the air and the net entropy change. Sketch the process on a T-s diagram. (8.5marks)

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Heat in the amount of 100 kJ is transferred directly from a hot reservoir at 1350 K (TH) to a cold reservoir at 600 K. Calculate the entropy change of the two reservoirs. TH gg 100 kJ 600 K The entropy change of the two reservoirs is Is the increase of entropy principle satisfied? kJ/K.