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A heat engine absorbs 2500 J of heat from a hot reservoir and expels 1000 J to a cold reservoir. When it is run in reverse, with the same reservoirs, the engine pumps 2500 J of heat to the hot reservoir,
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A heat engine absorbs 2500 J of heat from a hot reservoir and expels 1000 J to a cold reservoir. When it is run in reverse, with the same reservoirs, the engine pumps 2500 J of heat to the hot reservoir, requiring 1500 J of work to do so. Find the ratio of the work done by the heat engine to the work done by the pump. Is the heat engine reversible?

User Jon Chesterfield
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To solve this problem, we must simply use the concept of Total Energy transferred both in terms of work and heat. This is basically conjugated in the first law of thermodynamics.

If we take the heat absorbed as positive and the expelled as negative we have that the total work done in the heat engine is


W_1 = 2500-1000


W_1 = 1500J

For the case of the engine pumps the Energy absorbed is


W_2 = 1500J

In this way the ratio between the two would be


Ratio = (W_1)/(W_2) = (1500)/(1500) = 1

So it is reversible, because the state of efficiency of the body is totally efficient.

User Hassan Abedi
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