**Current Attempt in Progress**Air contained within a piston-cylinder assembly is slowly compressed. As shown in the figure below, during this process the pressure first varies linearly with volume and then remains constant.*Graph Description:*The graph is a pressure-voltage (P-V) diagram with the following details:- The vertical axis represents pressure (P) in kilopascals (kPa), ranging from 0 to 250.- The horizontal axis represents volume (V) in cubic meters (m³), ranging from 0 to 0.07.- The process follows a two-step path: - **From point 1 to point 2:** Pressure decreases linearly from 250 kPa at a volume of 0.015 m³ to 100 kPa at a volume of 0.05 m³. - **From point 2 to point 3:** Pressure remains constant at 100 kPa while volume decreases from 0.05 m³ to 0.07 m³.**Determine the total work, in kJ.**W = ___ kJ

Answered: Image /qna-images/answer/d7d972f7-32f0-4ad5-8ef6-b6e0510e2da9.jpg

Air contained within a piston-cylinder assembly is slowly compressed. As shown in the figure below, during this process the pressure first varies linearly with volume and then remains constant. 250- p 100- (kPa) 0.05 0.07 V (m³) 0.015 Determine the total work, in kJ. W = i kJ

Air contained within a piston-cylinder assembly is slowly compressed. As shown in the figure below, during this process the pressure first varies linearly with volume and then remains constant. 250- p 100- (kPa) 0.05 0.07 V (m³) 0.015 Determine the total work, in kJ. W = i kJ

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)...

See similar textbooks

Related questions

Q: In the graph below, each unit on the horizontal axis is 3.0 m and each unit on the vertical axis is…

Q: A Carnot engine is operated between two energy tanks with temperatures of 450 K and 350 K. and they…

A: For Carnot engine: TH = 450 K TL = 350 K Heat received QH = 1000 J Find: a- how much energy the…

Q: i) What is first law of thermodynamics? Write the formula. ii) Estimate the work done in changing…

Q: 1. A piston/cylinder has 2 kg water at 1000 kPa, 250°C which is now cooled with a constant loading…

A: in this question we determine volumes by using Table B.1.2 and B.1.3 and then use heat transfer…

Q: The efficiency of a Carnot heat engine is 25%. It takes 4000 J of heat input. What is the heat…

Q: 1A) The amount of work that can be performed by a process under certain conditions is given by ∆G…

A: To obtain the conditions for processes where the Gibbs free energy is changing and the conditions…

Q: in the figure. The arrows of the curve indicate the direction of the process, and the points of…

A: As we know,Area under P-V curve is…

Q: The Carnot engine takes 1,000 kcal from a reservoir of 627°C and releases it to a reservoir of 27°C.…

Q: The heat of melting of ice at 1 atmosphere pressure and 0°C is 1.4363 kcal/mol. The volume of ice is…

Q: Question 18 A balloon with a volume of 0.15 m³ contains air at a pressure of 115 kPa. Additional air…

Q: A thermodynamic system undergoes a cycle A-B-C-A as shown in the p-V diagram. Complete the table…

Q: 1. Sketch the cycle 2. Determine Q cycle and Q31

A: In pv diagram we have plot the graph 1. first step is isothermal…

Q: A heat engine draws in 537 J of heat and expels 121 J of heat. a) Find the work produced by the heat…

A: Given Qi=537J Qe=121J

Q: P, V = P2 V% %3D V2 HOW can I find V1 %3D .......

Q: O converts work to an equivalent amount of heat O takes heat in, does work, and loses energy as heat…

A: Required : What does a heat engine do.

Q: Choose the P-V Diagram and description of ADIABATIC. * PRINCIPLES BANK Presseure-Vollu me (P-V…

A: for adiabatic process PVγ = constant where γ = ratio of specific heat

Q: A potato cannon has the fuel combusted, generating a lot of heat and pressure, which launch a…

A: According to the first law of thermodynamics, the relation between the heat supplied Q to the…

Q: A gas in a cylinder undergoes change from an initial state i to a final state f shown in the figure…

A: The work done by gas is calculated by using the formula W=P∆V , where P is the pressure and V is the…

Q: 16) A gas undergoes a series of pressure and volume changes as shown in figure below. How much work…

Q: 09. a. Sketch a P-V diagram of a typical Carnot cy b. Shade and label the area representing work c…

Q: The maximum amount of work that can be done from the reversible, isothermal change of 2.0 moles of…

Q: wo moles of an ideal gas are heated at constant pressure from T1 = 21.0 ∘C to T2 = 104 ∘C . Part A)…

A: Part A) The PV diagram as shown in the figure for that process.

Q: A heat engine does 7300 J of work per cycle while absorbing 12 to 0 J of heat energy from the hot…

Q: Calculate the work output of a Carnot engine when 4000 J of heat is transferred to the engine for…

Q: 55 J of heat energy are transferred into an ideal gas and 40 J of work is done on the gas. What is…

Q: q = 0 for an isothermal process. a) True b) False

A: Given: q=0 in isothermal process

Q: 80 g of ice at 0.000C absorbs just enough heat to completely melt. What is the change in entropy of…

A: Given: The mass of the ice, m=80 g The latent heat of fusion of ice is, Lf=334 J/g. Require:…

Q: 9.0 - C PV=constant 6.0 PV=constant atm) 1.5- A 1.0- 24.0 V (m3) 4,0

Q: for the first part (finding the work done), can you use one of the equations for work done in an…

Q: Q1: The figure shows the two processes on the P- V diagram. If the ratio and the total work (W-3 =…

Q: an ideal gas. The pressure is doubled as seen on th p (kPa) 30.0 V (m³) 0.050

Q: Part 1: Five thousand kilocalories (5000 kcal) of heat flows from a high temperature reservoir at…

A: Entropy change is related to the amount of heat transferred at a temperature T as, ∆S=∆QT∆Q is the…

Q: If point a has 10000 J of internal energy and point b has 15000 J of internal energy, find Qab,…

A: Giveninternal energy at point a=10000 Jinternal energy at point b=15000 Jnow as the process a to b…

Q: In adiabatic system, which of the following is not crossing the border of the system? Select one: O…

A: In adiabatic system, there is no exchange of heat between the system and its surroundings.

Q: 7. Write the formula for the computation of work if it is isobaric. 8. If the gas (system) is…

A: 7. Formula : W = P(V2 - V1) 8. The work is positive.

Q: During one complete cycle of a heat engine process, which of the following quantities is nonzero?…

A: The correct option is (c). The work done.

Q: 2. The picture in Figure 1b shows a schematic pV-graph for a Stirling engine. Redraw the graph and…

Q: 1. A certain heat engine does 7 kJ of work and 6 kJ of heat transfer occurs to the environment in a…

Q: A heat engine using 1.0 mol of a monatomic gas follows the cycle shown in the figure. 3750 J of heat…

Q: A thermodynamic system undergoes an isochoric change during which the internal energy of the system…

Q: A cylindrical pump contains a fixed number of gas molecules. The piston is free to move, but no gas…

A: The objective of the question is to understand the thermodynamic process happening in a cylindrical…

Q: In the figure below you see the process done by 9.0 moles of an ideal gas with adiabatic constant…

Q: ased on the given pV diagram, match the answers with questions. Isotherms v the change in themal…

A: In the given graph T1,T2,T3 are three isotherms plotted against P-V graph.

Q: Consider a heat engine transferring energy from a warm region (Tw) to a cool region (Tc) . Which…

A: Efficiency of heat engine =1-(Tc/Tw) For option a, b & c warm region have same temperature, so…

Question

**Current Attempt in Progress**

Air contained within a piston-cylinder assembly is slowly compressed. As shown in the figure below, during this process the pressure first varies linearly with volume and then remains constant.

*Graph Description:*

The graph is a pressure-voltage (P-V) diagram with the following details:

- The vertical axis represents pressure (P) in kilopascals (kPa), ranging from 0 to 250.
- The horizontal axis represents volume (V) in cubic meters (m³), ranging from 0 to 0.07.
- The process follows a two-step path:
- **From point 1 to point 2:** Pressure decreases linearly from 250 kPa at a volume of 0.015 m³ to 100 kPa at a volume of 0.05 m³.
- **From point 2 to point 3:** Pressure remains constant at 100 kPa while volume decreases from 0.05 m³ to 0.07 m³.

**Determine the total work, in kJ.**

W = ___ kJ

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

A gas is confined in a thermally insulated cylinder as shown in the figure below. The gas is compresses as shown in figure (b). Which one of the following statement is true? a. The work done on the gas will be negative b. The work done on the gas will be Positive c The final pressure on the gas will be zero d. The work done on the gas will be Zero yot
For the heat pump (used for heating) illustrated below, what is its coefficient of performance for heating. Ag? The gas is monatomic. p(Pa) 6 A. 8/3 B. 2 C. 11/3 D. 14/3 E. 19/7 2 V(m³) 34
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
Q4- Water in piston cylinder system at (TI and X1). The water is heated isothermally until the(V2=4V1). Then the work is exchanged with system according the low (PV=C) until reach to itsoriginal pressure. Assume TI and XI and draw the processes on P-v diagram and determine1- The final volume2- The amount of work
If the temperature of the source is increased, the efficiency of a Carnot engine? a) Increases b) Decreases c) Remains constant d) First increases and then remains constant
Calculate the efficiency of a heat engine operating between two reservoirs at temperatures T₁ = 400 K and T₂ = 300 K. Select one: O a. η = 0.25 - Ο b. η = 3.0 O c. n = 4.0 O d. n = 0.33333333333333
A gas expands from 2.2 L to 3.6 L against a constant external pressure of 1.6 atm. What is the work done? A. -227 J B. 227 J C. 2.24 J D. -2.24 J
If a heat engine works in a Carnot cycle, what happens to its efficiency when the difference in temperature of the hot and cold reservoirs increases? Its efficiency: A. increases. B. decreases. C. becomes zero. D. remains the same.
One mole of an ideal gas, initially at 310 K, is cooled at constant volume so that the final pressure is one-sixth of the initial pressure. Then the gas expands at constant pressure until it reaches the initial temperature. Determine the work done on the gas. -1.93 X kJ Additional Materials eBook
L> A Click Submit to complete this assessment. Question 12 A heat engine performs 264 J of work in each cycle and has an efficiency of 0.2%. For each cycle, how is expelled as heat?
7
answer the question >>>>>