Shown in the figure below is the cycle undergone by a Heat Pump. Your heat pump runs using 38.07 moles of monatomic Argon gas. At point a in the figure, the temperature is T, = 447 Kelvin and the pressure is P, = 109000 Pascals. During the process a-b, the Volume of the system Doubles. P Cy = 12.471 Cp = 20.785 Y = 1.67 STATE a b с PROCESS a-b b→c a 109000 2865.34 248720069 C-a Total P (Pa) ✔Joules/(mole K); ✔ Joules/(mole. K); ✓ W (J) isothermal ✔1.297 X 2.594 x 1.297 Qhot = Qcold = Performance Coefficient = Joules; Joules; b v (m³) Q (J) V ✔ 447 ✓447 AU (3) T (K) x

Shown in the figure below is the cycle undergone by a Heat Pump. Your heat pump runs using 38.07 moles of monatomic Argon gas. At point a in the figure, the temperature is T, = 447 Kelvin and the pressure is P, = 109000 Pascals. During the process a-b, the Volume of the system Doubles. P Cy = 12.471 Cp = 20.785 Y = 1.67 STATE a b с PROCESS a-b b→c a 109000 2865.34 248720069 C-a Total P (Pa) ✔Joules/(mole K); ✔ Joules/(mole. K); ✓ W (J) isothermal ✔1.297 X 2.594 x 1.297 Qhot = Qcold = Performance Coefficient = Joules; Joules; b v (m³) Q (J) V ✔ 447 ✓447 AU (3) T (K) x

College Physics

10th Edition

ISBN:9781285737027

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter10: Thermal Physics

Section: Chapter Questions

Problem 9WUE: Suppose 26.0 g of neon gas are stored in a tank at a temperature of 152C. (a) What is the...

See similar textbooks

Related questions

Q: Shown in the figure below is the cycle undergone by a Heat Engine. Your engine runs using 21.09…

Q: A monatomic gas fills the left end of the cylinder in the following figure. At 300 K , the gas…

A: Answer- The heat energy- 38.4JThe answer for above problem is explained below.Explanation:

Q: A process happens along the following path on the p-V diagram. p=AV+B , where A and B are constants.…

Q: 8.7 moles of an ideal monatomic gas expand adiabatically, performing 8800 J of work in the process.…

A: .

Q: A monoatomic ideal gas is taken through the cycle A to B to C to A. a). Express the heat Qca flowing…

Q: The heat engine shown in the figure uses 2.0 mol of a monatomic gas as the working substance.…

A: Given:- The heat engine is shown in the figure below as The number of moles of a monatomic gas…

Q: A gas sample in a closed rigid container absorbs heat and the temperature increases. The amount of…

A: The amount of work done is given as W=P∆V Where ∆V is the change in volume

Q: The temperature of an ideal gas is raised from 298 K to 402 K in a process that increases the heat…

Q: We place a 1-mole sample of an ideal monoatomic gas in a cylinder with a piston and we heat the gas…

Q: 2 moles of ideal oxygen gas are kept at 273 K in a volume of 11.35 dm3 with a molar heat capacity at…

A: a). The gas's final volume is 15.50 dm3 b). Work done is 1662.8 J c). 5880 J of heat has been…

Q: A gas can be taken from A to B via two different processes ACB and ADB. PA B A D When path ACB is…

Q: Air goes through a Brayton cycle gas turbine, entering the compressor at 11 °C and 92 kPa. When it…

A: From the given data, it is clear that the process takes place under constant pressure. The change in…

Q: Sketch a PV diagram and find the work done by the gas during the following stages. A. A gas is…

Q: A cylinder with a piston contains 0.110 molmol of nitrogen at 1.80×105 PaPa and 310 KK . The…

Q: One mol of gas initially at STP undergoes an isobaric compression during which the volume is cut in…

A: Number of moles n = 1.Initial temperature Initial pressure of the gas in first process there is…

Q: An ideal monatomic gas is taken through the cycle in the PV diagram. where V1 = 1.20,…

Q: Calculate the change in internal energy of the gas. Part B Calculate the heat absorbed during this…

Q: An ideal gas has undergoes two process AB and BC as shown in the figure below. 8 kJ of heat is…

Q: A cylinder contains 0.250 mol of carbon dioxide (CO2) gasat a temperature of 27.0C. The cylinder is…

A: To draw a PV diagram for the gas process, we see that pressure remains constant and temperature will…

Q: One mole of ideal gas is slowly compressed to one-third of its original volume. In this compression,…

A: (a) The heat flow Q for the gas in an isothermal process is

Q: A gas in a cylinder is held at a constant pressure of 2.20×105 Pa and is cooled and compressed from…

A: Given that the pressure and final volume and initial volume and also given the decrease in internal…

Q: During the time 0.325 mol of an ideal gas undergoes an isothermal compression at 22.0∘C, 392 J of…

A: Given information:

Q: A PV diagram below, Figure 1, shows two possible states of a system containing three moles of a…

A: Work done under PV diagram is represented by area bounded between curve and volume axis

Q: A gas is enclosed in a cylinder fitted with a light frictionless piston and maintained at…

A: Given data: Piston maintained at atmospheric pressure Heat added (Q) = 254 kcal Initial volume (V1)…

Q: 7 moles of an ideal gas undergoes compression at a constant temperature of 400K. The pressure…

A: Internal energy is the function of temperature of the system and the given process in above question…

Q: As shown below, a nonideal gas goes through the cycle ABCA. During the process AB, 71.5 J of heat…

Question

Ta
Shown in the figure below is the cycle undergone by a Heat Pump. Your heat pump runs using 38.07 moles of monatomic Argon gas. At point a in the figure, the temperature is T₂ = 447 Kelvin and the pressure is Pa = 109000 Pascals. During the process a→b, the Volume
of the system Doubles.
P
Cv = 12.471
Cp = 20.785
Y =
1.67
STATE
a
b
с
PROCESS
a→b
b→c
c-a
Total
a
P (Pa)
109000
2865.34
248720069
W (J)
isothermal
✓ Joules/(mole. K);
Joules/(mole K);
1.297
X 2.594
X
1.297
Qhot =
Qcold =
Performance Coefficient =
Joules;
Joules;
b
V (m³)
Q (1)
447
447
AU (J)
T (K)
✓
X

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: Given data:

VIEW

Step 2: Volume and pressure

VIEW

Step 3: Heat transfer

VIEW

Step 4: Work done

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 5 steps with 16 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

One mole of an ideal gas doubles its volume in a reversible isothermal expansion. (a) What is the change in entropy of the gas? (b) If 1500 J of heat are added in this process, what is the temperature of the gas?
A car tile contains 0.0380 m3 of air at a pressure of 2.20105 Pa (about 32 psi). How much more internal energy does this gas have than the same volume has at zero gauge pressure (which is equivalent to normal atmospheric pressure)?
The insulated cylinder shown below is closed at both ends and contains an insulating piston that is flee to move on frictionless bearings. The piston divides the chamber into two compartments containing gases A and B. Originally, each compartment has a volume of 5.0102 m3 and contains a monatomic ideal gas at a temperature of and a pressure of 1.0 atm. (a) How many moles of gas are in each compartment? (b) Heat Q is slowly added to A so that it expands and B is compressed until the pressure of both gases is 3.0 atm. Use the fact that the compression of B is adiabatic to determine the final volume of both gases. (c) What are their final temperatures? (d) What is the value of Q?
As shown below, calculate the work done by the gas in the quasi-static processes represented by the paths (a) AB; (b) ADB; (c) ACB; and (d) ADCB. `
One of a dilute diatomic gas occupying a volume of 10.00 L expands against a constant pressure of 2.000 atm when it is slowly heated. If the temperature of the gas rises by 10.00 K and 400.0 J of heat are added in the process, what is its final volume?
Two moles of a monatomic ideal gas at (5 MPa, 5 L) is expanded isothermally until the volume is doubled (step 1). Then it is cooled isochorically until the pressure is 1 MPa (step 2). The temperature drops in this process. The gas is now compressed isothermally until its volume is back to 5 L, but its pressure is now 2 MPa (step 3). Finally, the gas is heated isochorically to return to the initial state (step 4). (a) Draw the four pi-cresses in the pV plane. (b) Find the total work done by the gas.
The product of the pressure and volume of a sample of hydrogen gas at 0.00 is 80.0 J. (a) How many moles of hydrogen are present? (b) What is the average translational kinetic energy of the hydrogen molecules? (c) What is the value of the product of pressure and volume at 200 ?
(a) Calculate the work done by the gas along the closed path shown below. The curved section between R and S is semicircular. (b) If the process is carried out in the opposite direction, what is the work done by the gas?
When 400 J of heat are slowly added to 10 mol of an ideal monatomic gas, its temperature rises by 10 . What is the work done on the gas?
One mole of an ideal gas is initially in a chamber of volume 1.0102 m3 and at a temperature of 27 . (a) How much heat is absorbed by the gas when it slowly expands isothermally to twice its initial volume? (b) Suppose the gas is slowly transformed to the same final state by first decreasing the pressure at constant volume and then expanding it isobarically. What is the heat transferred for this case? (c) Calculate the heat transferred when the gas is transformed quasi-statically to the same final state by expanding it isobarically, then decreasing its pressure at constant volume.
Five moles of a monatomic ideal gas in a cylinder at 27 is expanded isothermally from a volume of 5 L to 10 L. (a) What is the change in internal energy? (b) How much work was done on the gas in the process? (c) How much heat was transferred to the gas?
Professional divas sometimes use heliox, consisting of 79% helium and 21% oxygen by mole. Suppose a perfectly rigid scuba tank with a volume of 11 L contains heliox at an absolute pressure of 2.1107 Pa at a temperature of 31 . (a) How many moles of helium and how many moles of oxygen are in the tank? (b) The diver goes down to a point where the sea temperature is 27 while using a negligible amount of the mixture. As the gas in the tank reaches this new temperature, how much heat is removed from it?