Find the work done on a system consisting of an ideal gas expanding from V0 to 2V0 along the path P = aV2, where a is a constant. The initial pressure and temperature are P0 and T0
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A: SOlution: Given that V1 = 1.5 m3 V2 = 6.7 m3 Q = 10.5x105 J
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A: W=PVf-Vi=P2Vi-Vi=PVi=1.6 atm1.01×105 Pa1 atm2.0 m3=3.23×105 J
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A: Work done by any gas = P∆V P = pressure ∆V = change in volume.
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Q: Find the work done on a system consisting of an ideal gas expanding from V0 to 2V0 along the path P…
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Q: A monatomic ideal gas expands from 1.00 m3 to 4.50 m3 at a constant pressure of 1.50×105 Pa. Find…
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Q: Find the total work done on the gas using W=p∆V.
A: Work done on the gas = Total area under the curve ABCD
Q: A monatomic ideal gas expands from 1.70 m3 to 3.50 m3 at a constant pressure of 2.80 ✕ 105 Pa. Find…
A: Given : V1=1.70 m3V2=3.50 m3P=2.80×105 Pa (a) Work done on gas : W=PV2-V1 Plugging given values…
Q: as in a container is at a pressure of 4.20 atm and a volume of 8.00 m³. (a) What is the work done on…
A: Given: Pressure contained is = 4.20 atm Volume of gas = 8.00 m3 To find: Work Done on the Gas
Find the work done on a system consisting of an ideal gas expanding from V0 to 2V0 along the path P = aV2, where a is a constant. The initial pressure and temperature are P0 and T0
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