If I could get help with questions 1,3,5 I would re Section 19.2 Work in Ideal-Gas Processes1. || How much work is done on the gas in the process shown inFIGURE EX19.1?p (kPa)400-20000 100 200 300FIGURE EX19.1FIGURE EX19.3V (cm³)Section 19.3 Heatp (kPa)p (kPa)4002000+0FIGURE EX19.22. || How much work is done on the gas in the process shown inFIGURE EX19.2?3. || 80 J of work are done on the gas in the process shown inFIGURE EX19.3. What is V₁ in cm³?100 200 30030020010000 V₁ 2V₁ 3V₁V (cm³)4. |A 2000 cm³ container holds 0.10 mol of helium gas at 300°C.How much work must be done to compress the gas to 1000 cm³ at(a) constant pressure and (b) constant temperature?5. || 500 J of work must be done to compress a gas to half its initialvolume at constant temperature. How much work must be done tocompress the gas by a factor of 10, starting from its initial volume?

Answered: Image /qna-images/answer/fd7bc1d8-1869-4b82-a453-5fc582b1180d.jpg

Answered: 1. || How much work is done on the gas…

1. || How much work is done on the gas in the process shown in FIGURE EX19.1? p (kPa) 400- 200 0 0 100 200 300 FIGURE EX19.1 V (cm³) p (kPa) 400- 200- 0 f 0 FIGURE EX19.2 i 100 200 300 V (cm³)

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Question

If I could get help with questions 1,3,5 I would re

Section 19.2 Work in Ideal-Gas Processes
1. || How much work is done on the gas in the process shown in
FIGURE EX19.1?
p (kPa)
400-
200
0
0 100 200 300
FIGURE EX19.1
FIGURE EX19.3
V (cm³)
Section 19.3 Heat
p (kPa)
p (kPa)
400
200
0+
0
FIGURE EX19.2
2. || How much work is done on the gas in the process shown in
FIGURE EX19.2?
3. || 80 J of work are done on the gas in the process shown in
FIGURE EX19.3. What is V₁ in cm³?
100 200 300
300
200
100
0
0 V₁ 2V₁ 3V₁
V (cm³)
4. |A 2000 cm³ container holds 0.10 mol of helium gas at 300°C.
How much work must be done to compress the gas to 1000 cm³ at
(a) constant pressure and (b) constant temperature?
5. || 500 J of work must be done to compress a gas to half its initial
volume at constant temperature. How much work must be done to
compress the gas by a factor of 10, starting from its initial volume?

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