3. An ideal gas is compressed from a volume of V;thermal contact with a heat reservoir at T = 295 K as shown on the figure below. During thecompression process, the piston moves down a distance of d = 0.130 m under the action of anaverage force of F = 25.0 kN.5.00 L to a volume V = 3.00 L while inF(a) Find the work done on the gas.(b) Find the change in internal energy of the gas.(c) Determine the thermally energy exchanged between the gas and the reservoir.(d) If the gas is thermally insulated so no thermal energy could be exchanged, what wouldhappen to the temperature of the gas during the compression?Fal

according to guideline, three subparts are answered here. Given that,vi=5 Lvf=3 LT=295 Kdistance…

Answered: 3. An ideal gas is compressed from a…

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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A 0.25 mol of a monatomic ideal gas at 27 degrees C is contained in a cylinder that is fitted with a movablefriction free piston. The temperature of the gas is increased to 127degrees C while the pressure of 1 atm ismaintained. Calculate:i. how much work is done by the gas in the process, ii. the change in internal energy of the gas, iii. heat that was supplied to the gas.
1. When the pins fall away, the gas is compressed by a constant external pressure to 5 atm. Calculate AS and find the maximum work that could have been extracted from the same change in state had the process been carried out reversibly. The system is in contact with the surroundings at 250K. TE250k O.5 moler ielealget at latm -Perti Satm
4 di 8 Domanda 8 Completo Punteggio max.: 2 When an ideal gas is compressed isothermally Scegli un'alternativa: A. heat flows into the gas. OB. the internal energy of the gas does not change. OC. the work done on the gas is zero. OD. the temperature of the gas increases. Exam 17-12-2020: Revisione tentativo Domanda 9 O Cerca I https://elearning.unipd.it/dimed/mod/quiz/revien B
What is the net work Wnet,s = ΣWs done by the gas in this process and What is the heat QH taken from the hot reservoir? Please answer both, its my last question remaining!
The graph shown is for a dilute gas that follows the clockwise path of quasi-static steps: isobaric expansion, isochoric reduction of pressure, isobaric compression, and isochoric increase in pressure. The vertical axis is shown in multiples of the pressure pp, where p=2.5atm, and the horizontal axis is shown in multiples of V, where V=4L. Part (a) What is the work done for the segment from state A to state B? Part (b) What is the work done for the segment from state B to state C? Part (c) What is the work done for the segment from state C to state D? Part (d) What is the total work done in making a single clockwise cycle, A to B to C to D?

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