Consider a Carnot's cycle operating betw...

Consider a Carnot's cycle operating between `T_(1)`=500 K and `T_(2)` = 300 K producing 1 kJ of mechanical work per cycle. Find the heat transferred to the engine by the reservoirs.

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To solve the problem, we will follow the steps outlined in the video transcript. ### Step-by-Step Solution: 1. **Identify the Given Values:** - Temperature of the hot reservoir (T1) = 500 K - Temperature of the cold reservoir (T2) = 300 K - Work done (W) = 1 kJ = 1000 J ...

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Knowledge Check

A Carnot's cycle operating betiween T_(1)=600K and T_(2)=300 K Producing 1.5 KJ of mechanical work per cycle. The transferred to the engine by the reservoirs is

A

2.5 KJ

B

3 KJ

C

3.5 KJ

D

4 KJ

Consider a carnot cycle operating between source tempeature 750 K and sink temperature 350 K producing 1.25 J KJ of mechanical work per cycle, the heat transferred to the engine by the reservers

A

1.34 KJ

B

2.34 KJ

C

3.34 KJ

D

4.34 KJ

A Carnot engine operates with a source at 500 K and sink at 375 K. Engine consumes 600 kcal of heat per cycle. The heat rejected to sink per cycle is

A

250 kcal

B

350 kcal

C

450 kcal

D

550 kcal

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The efficiency of a Carnot engine working between 800 K and 500 K is -

A carnot engine operates between two reservoirs of temperature 900K and 300K. The engine performs 1200 J of work per cycle. The heat energy delivered by the engine to the low temperature reservoir in a cycle is:

A carnot engine operates between two reservoirs of temperature 900K and 300K. The engine performs 1200 J of work per cycle. The heat energy delivered by the engine to the low temperature reservoir in a cycle is:

A Carnot engine working between K 300 and 600 K has work output of 800 J per cycle. What is amount of heat energy supplied to the engine from source per cycle

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