Carnot efficiency: is heat always positive?

AI Thread Summary
In the equation e=1-Q_{C}/Q_{H}, both Q_{H} and Q_{C} are treated as positive quantities, representing the heat input and output, respectively. The negative sign in the equation accounts for the direction of heat flow, with Q_{H} being the heat added to the system and Q_{C} being the heat expelled. The efficiency is defined as the work done by the engine divided by the heat input, illustrating the relationship between energy supplied and work output. Confusion arises when considering the signs of Q_{H} and Q_{C}, but they should be viewed as magnitudes in this context. Overall, the efficiency measures how effectively the engine converts heat energy into work.
danrochester
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This is a very quick question but in the equation

e=1-Q_{C}/Q_{H}

do we treat both Q's as positive even though heat goes in in one case and out in the other? Or is there some detail I'm missing that would otherwise make the result less than 1.
 
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The answer is yes. The minus sign takes into account the difference you stated above.
 
danrochester said:
This is a very quick question but in the equation

e=1-Q_{C}/Q_{H}

do we treat both Q's as positive even though heat goes in in one case and out in the other? Or is there some detail I'm missing that would otherwise make the result less than 1.
Giordanus is correct. Heat flow is measured relative to the engine (gas): Qh is into the gas - positive - and Qc is out of the gas - negative. The equation derives from the first law:

\Delta Q = \Delta U + W

After one complete cycle, there is no change in internal energy of the gas so:

\Delta Q = W

This means that the heat flow into the gas minus the heat flow out of the gas equals the work done by the gas:

\Delta Q = Q_h - Q_c = W

Since efficiency is Output/Input

\eta = W/Q_h = (Q_h - Q_c)/Q_h = 1 - \frac{Q_c}{Q_h}

AM
 
Thanks Andrew, I get the overall idea that you want to measure the ratio of heat lost to heat gained. I was running into confusion because, as you stated QH is positive and QC is negative. If I used this convention then the efficiency equation would give a value greater than 1...

So would it not be more accurate to say that QH is the heat put into the system, and QC is the heat expelled by the system, and so both quantities are treated as positive?
 
danrochester said:
Thanks Andrew, I get the overall idea that you want to measure the ratio of heat lost to heat gained.
Efficiency is not a measure of heat lost to heat gained. It is a measure of the rate of work done to heat energy supplied. The heat lost is the heat delivered to the cold reservoir. So efficiency is a measure of the rate at which the heat is NOT lost to the cold reservoir to the heat supplied.

So would it not be more accurate to say that QH is the heat put into the system, and QC is the heat expelled by the system, and so both quantities are treated as positive?
Qc and Qh refer to the magnitude of the heat flows to/from the reservoirs to the engine. If that is all you are saying, you are correct.

AM
 
Last edited:
giordanus and mason are both right, since w=qh-qc, the efficiency(e)=Weng/Qh,

e=1-(Qh/Qc)
 

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