1) A 1.00-mol sample of an ideal diatomic gas is allowed to expand. This expansion is represented by the straight line from 1 to 2 in the PV diagram. The gas is then compressed isothermally. This compression is represented by the curved line from 2 to 1 in the PV diagram. Calculate the work per cycle done by the gas. Pressure (atm) 2.2 2.0 1.8 1.6 1.4 2 1.2 1.0 0.8 10 Submit 12 14 kJ 16 18 Volume (liter) 20 22 2 24 You currently have 0 submissions for this question. Only 10 submission are allowed. You can make 10 more submissions for this question. +

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1) A 1.00-mol sample of an ideal diatomic gas is allowed to expand. This expansion is represented by the straight line
from 1 to 2 in the PV diagram. The gas is then compressed isothermally. This compression is represented by the
curved line from 2 to 1 in the PV diagram. Calculate the work per cycle done by the gas.
Pressure (atm)
2.2
2.0
1.8
1.6
1.4
2
1.2
1.0
0.8
10
Submit
12
14
kJ
16
18
Volume (liter)
20
22
2
24
You currently have 0 submissions for this question. Only 10 submission are allowed.
You can make 10 more submissions for this question.
+
Transcribed Image Text:1) A 1.00-mol sample of an ideal diatomic gas is allowed to expand. This expansion is represented by the straight line from 1 to 2 in the PV diagram. The gas is then compressed isothermally. This compression is represented by the curved line from 2 to 1 in the PV diagram. Calculate the work per cycle done by the gas. Pressure (atm) 2.2 2.0 1.8 1.6 1.4 2 1.2 1.0 0.8 10 Submit 12 14 kJ 16 18 Volume (liter) 20 22 2 24 You currently have 0 submissions for this question. Only 10 submission are allowed. You can make 10 more submissions for this question. +
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