When a gas follows path 123 on the \(PV\) diagram in the figure below, 415 J of energy flows into the system by heat and \(-169\) J of work is done *on* the gas.**Diagram Explanation:**The \(PV\) diagram is a plot with pressure (P) on the vertical axis and volume (V) on the horizontal axis. The diagram shows a closed path with points labeled 1, 2, 3, and 4. The path sequence is 123, forming a rectangle on the diagram. The specific coordinates or values for pressure and volume are not indicated.**Questions:**(a) What is the change in the internal energy of the system?\[\text{[ ] J}\](b) How much energy \(Q\) flows into the system if the gas follows path 143? The work done on the gas along this path is \(-63.0\) J.\[\text{[ ] J}\](c) What net work would be done on the system if the system followed path 12341?\[\text{[ ] J}\](d) What net work would be done on the system if the system followed path 14321?\[\text{[ ] J}\](e) What is the change in internal energy of the system in the processes described in parts (c) and (d)?\[\text{[ ] J}\]

Answered: Image /qna-images/answer/71361767-d8f3-430a-8678-638c0348c1cd.jpg

When a gas follows path 123 on the PV diagram in the figure below, 415 J of energy flows into the system by heat and -169 J of work is done on the gas. P 1 (a) What is the change in the internal energy of the system? ]] (b) How much energy Q flows into the system if the gas follows path 143? The work done on the gas along this path is -63.0 J. (c) What net work would be done on the system if the system followed path 12341? (d) What net work would be done on the system if the system followed path 14321? (e) What is the change in internal energy of the system in the processes described in parts (c) and (d)? J

When a gas follows path 123 on the PV diagram in the figure below, 415 J of energy flows into the system by heat and -169 J of work is done on the gas. P 1 (a) What is the change in the internal energy of the system? ]] (b) How much energy Q flows into the system if the gas follows path 143? The work done on the gas along this path is -63.0 J. (c) What net work would be done on the system if the system followed path 12341? (d) What net work would be done on the system if the system followed path 14321? (e) What is the change in internal energy of the system in the processes described in parts (c) and (d)? J

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: A certain coal-fired power plant has a rated power capacity of P = 950 MW. The output of this plant…

Q: A mole of a gas at 127 degree C expands isothermally until its volume is doubled . Find the amount…

Q: 5. A monatomic ideal gas expands at constant pressure. (a) (b) expansion? gas? What percentage of…

A: Given : A monoatomic gas expands at constant pressure.

Q: (9 blanks) Derive the work done of an ideal gas undergoing isothermal expansion at temperature T1 if…

A: Explanation: Write the expression for the work done. W=∫V1V2pdV Here, p is the pressure and dV is…

Q: An aluminum rod is 18.9 cm long at 20°C and has a mass 350 g. If 12,000 J of energy is added to the…

Q: An ideal gas initially at P₁, V₁, and T, is taken through a cycle as shown below. (Let the factor n…

Q: 10. What is the efficiency of an automobile engine that has a heat input of 67.2 kJ and a heat…

A: Heat output (Q2) = 36.1 kJHeat input (Q1) = 67.2 kJ Efficiency of heat engine = = 0.463To…

Q: What is the change in internal energy of a system that takes in 4.48 x 106 J of heat, and does 4.50…

Q: heat energy

A: The heat engine cycle shown in Fig. 4 consists of four processes:Process 1-2 is an isochoric…

Q: A system gains 2730 J of heat at a constant pressure of 1.49 x 105 Pa, and its internal energy…

Q: a) the amount of heat transferred to the ice to melt; b) the change of entropy for the…

Q: A quantity of a monatomic ideal gas expands to twice the volume while maintaining the same pressure.…

Q: Help me please

Q: An ideal gas is compressed adiabatically by applying a force of 600 N over a distance of 10 cm how…

Q: The mass of a ship before launch is 55,000 metric tons (ton metric|]. The ship is launched down a…

Q: For the PV diagram below, find the net work done on the gas during the process indicated by the…

Q: A steam-electric power plant delivers 900 MW of electric power. The surplus heat is exhausted into a…

A: The amount of heat exhausted into the river can be calculated using the equation,

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

Q: A refrigerator is rated at 370 Watt. What is the maximum amount of heat it can remove in 1 min if…

Q: If an engine operates between 269°C and 26°C, what is its maximum thermodynamic efficiency (as a…

Q: If the outdoor temperature is 36°C, what will be the ratio of the power required to maintain an…

Q: Steam enters an adiabatic turbine at 8 MPa and 500°C at a rate of 3.5 kg/s and leaves at 10 kPa. If…

A: SOlution: given that P1 = 8 MPa P2 = 10 kPa T1=500 C P =2.5 MW mass flow m=3.5 kg/s

Q: .. 7.41 What amount of heat is necessary to raise 200.0 mol of helium from -28.0°C to 55.0°C if the…

Q: How much heat transfer (in J) occurs from a system if its internal energy decreased by 290 J while…

A: The internal decreased by 290 J. The work done is 43 J.

Q: The air inside a bicycle tire pump has 11.6 joules of work done on it as 4 joules of heat is…

A: Given : work done , W = 11.6 J Heat conducted away from the tire, Q = 4 J…

Q: Part C What is the ratio of the final temperature of the gas to its initial temperature? Enter your…

A: Given Data : Initial pressure, Pi=1.54×105 Pa Initial volume, Vi=7.50×10-2 m3 Final Volume,…

Q: The pV diagram in (Figure 1) shows a heat engine operating on 0.810 mol of H₂ (Cy = 20.42 J/(mol K),…

A: Specific heat at constant volume Cv= 20.42J/mol-k specific heat at constant pressure Cp=…

Question

When a gas follows path 123 on the \(PV\) diagram in the figure below, 415 J of energy flows into the system by heat and \(-169\) J of work is done *on* the gas.

**Diagram Explanation:**

The \(PV\) diagram is a plot with pressure (P) on the vertical axis and volume (V) on the horizontal axis. The diagram shows a closed path with points labeled 1, 2, 3, and 4. The path sequence is 123, forming a rectangle on the diagram. The specific coordinates or values for pressure and volume are not indicated.

**Questions:**

(a) What is the change in the internal energy of the system?
\[
\text{[ ] J}
\]

(b) How much energy \(Q\) flows into the system if the gas follows path 143? The work done on the gas along this path is \(-63.0\) J.
\[
\text{[ ] J}
\]

(c) What net work would be done on the system if the system followed path 12341?
\[
\text{[ ] J}
\]

(d) What net work would be done on the system if the system followed path 14321?
\[
\text{[ ] J}
\]

(e) What is the change in internal energy of the system in the processes described in parts (c) and (d)?
\[
\text{[ ] J}
\]

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: Determine the given data:

VIEW

Step 2: a) Calculate the change in internal energy:

VIEW

Step 3: b) Heat flow into the system if the gas follows 143 path:

VIEW

Step 4: c) Net work done on the system 12341:

VIEW

Step 5: d) Net work done on the system 14321:

VIEW

Step 6: e) Change in internal energy in c,d:

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 7 steps with 7 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Similar questions

Six grams of liquid X at 35 degrees Celsius are added to 3 grams of liquid Y at 20 degrees Celsius. The specific heat of liquid X is 2 calories per gram per degrees Celsius, and the specific heat of liquid Y is 1 calorie per gram per degree Celsius. Now imagine that liquid X continues to transfer energy to liquid Y 12 calories at a time. How many total transfers would be required to reach a common temperature? 04 O more than S 02
When a gas expands along AB (see below), it does 210 J of work and absorbs 560 J of heat. When the gas expands along AC, it does 264 J of work and absorbs 776 J of heat. PA D A (a) How much heat does the gas exchange along BC (in J)? B (b) When the gas makes the transition from C to A along CDA, 318 J of work are done on it from C to D. How much heat does it exchange along CDA (in J)?
4
In the following situations, find the change in the internal energy of the system. a) A system absorbs 450 J of heat, and at the same time does 210 J of work. b) 750 J of heat is removed from a gas that is held at constant volume.
A system does 3.4 × 104 J of work, and 8.2 × 104 J of heat flows into the system during the process. Find the change in the internal energy of the system.
A total of a 185 J of work is done on a gaseous refrigerant as it under goes compression, If the internal energy of the gas increases by 160 J during the process. What is the total amount of energy transferred as heat? Has energy been added to or removed from the refrigerant as heat? Show the procedure, result with units and direction