An ideal gas is taken through a cycle 1231 (see figure) and the efficiency of the cycle was found to be 25%. When the same gas goes through the cycle 1341, the efficiency is 10%. Find the efficiency of the cycle 12341.
A
18.6%
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B
23.2%
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C
32.5%
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D
44%
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Solution
The correct option is C32.5% Cycle 1-2-3-1
From 1→2, work done is +ve (∵ volume increases) and ΔU is also positive (∵ temperature increases).
Similarly, for 2→3, W as well as ΔU are positive.
Thus, in both the processes 1→2 and 2→3, the gas absorbs heat.
Let the total heat absorbed in the process 1→2→3 be Q1. Similarly, one can argue that the gas rejects heat (say Q0) to the surrounding in the process 3→1. Also, let work done in the cycle be W1.
Using first law of thermodynamics for complete cycle - ΔQ=ΔU+W[ΔUcycle=0] Q1−Q0=W1……(i)
And efficiency η=W1Q1 ⇒14=W1Q1……(ii)
Cycle 1-3-4-1
Q0= heat gained by the gas in process 1→3.
[due to symmetry, it will be the same as heat rejected in previous]
Let Q2= heat rejected by the gas in process 3→4→1
Let W2= work done in cycle. η=W2Q0⇒110=W2Q1−W1 [using (i)] ⇒Q1−W1=10W2 ⇒Q1=W1+10W2……(iii)
Using (ii) and (iii) 4W1=W1+10W2 3W1=10W2……(iv)