An ideal gas initially at pressure P0, volume V0, and temperature T0 is taken through the cycle described in the figure below. (Assume n = 4 and m = 7.) A rectangular path is plotted on a PV diagram that has a horizontal axis labeled V, and a vertical axis labeled P. The area inside the rectangle is shaded. The path is clockwise and runs through corner points A–D in the following order: A (V0, P0), B (V0, nP0), C (mV0, nP0), D (mV0, P0). (a) Find the net work done by the gas per cycle in terms of P0 and V0. (Substitute numeric values for n and m, do not use the variables n and m.) Wenv= (b) What is the net energy Q added to the system per cycle? (Use the following as necessary: P0 and V0.) Q = (c) Obtain a numerical value for the net work done per cycle for 1.00 mol of gas initially at 0°C. Hint: Recall that the work done by the system equals the area under a PV curve. kJ

An ideal gas initially at pressure P0, volume V0, and temperature T0 is taken through the cycle described in the figure below. (Assume n = 4 and m = 7.) A rectangular path is plotted on a PV diagram that has a horizontal axis labeled V, and a vertical axis labeled P. The area inside the rectangle is shaded. The path is clockwise and runs through corner points A–D in the following order: A (V0, P0), B (V0, nP0), C (mV0, nP0), D (mV0, P0). (a) Find the net work done by the gas per cycle in terms of P0 and V0. (Substitute numeric values for n and m, do not use the variables n and m.) Wenv= (b) What is the net energy Q added to the system per cycle? (Use the following as necessary: P0 and V0.) Q = (c) Obtain a numerical value for the net work done per cycle for 1.00 mol of gas initially at 0°C. Hint: Recall that the work done by the system equals the area under a PV curve. kJ

Related questions

Q: Answer the following questions about the PV diagram shown in the picture. Question 1: How much…

Q: After an isobaric process, the enthalpy of 28g of CO gas, increases by 2700 J. The initial…

Q: The PV diagram below represents a gas that expands from point I to point F along the three different…

Q: A sample of an ideal gas can be taken through the two cycles shown in the graphs of pressure Pas a…

A: Assume mole, n = 1

Q: 43.0 g of 40Ar gas are sealed in a container at an initial pressure of 1.50 atm and an initial…

Q: Three moles of an ideal gas are taken around the cycle abc shown in the figure . For this gas, Cp=…

A: Write the expression for work done during the isobaric process

Q: An ideal diatomic gas has an initial pressure of 1.00×10°P , an initial volume of 2.00m', and an…

A: Iso choric process is the process where the system volume remain constant during the process. Iso…

Q: A diatomic ideal gas goes through the cycle a → b → c → d → a as shown in the figure. Processes ab…

Q: Figure 1 If the heat absorbed during the isothermal leg of the cycle is 140J what is the work done…

Q: The P-V diagram relates to a fixed quantity of O2, assumed to be an ideal gas. The temperature at…

Q: Suppose V₁=160 cm³ in (Figure 1). Figure p (atm) 3- 2 1 V₁ 2V, 3V, 1 of 1 V (cm') Part A How much…

Q: What type of process is shown in the P-V diagram? Adiabatic Isochoric Isobaric…

A: In the given diagram, pressure remains a constant from initial point to final point (i.e, pressure…

Q: PV. A quantity of a monatomic ideal gas undergoes a process in which both its pressure and volume…

A: Energy absorbed by heat into the gas during the shown process.

Q: 0.05 mole of helium is expanded from 1 L to 2 L while pressure is kept constant at 1 atm, as…

Q: 1.00×10^(−3) moles of ideal monotonic gas expands from a volume of 2.00 cm^3 to 4.00 cm^3 at a…

Q: he pV-diagram shows a thermodynamic process followed by a monatomic gas where temperature T3 = 577K.…

A: Given data T3=577 KP1=3×105 PaV1=0.001 m3V2=V3=0.003 m3 Here, P represents the pressure. And T…

Q: A gas follows the PV diagram in the figure below. Find the work done on the gas along the paths AB,…

A: Solution:

Q: 4 moles of an ideal monatomic gas undergoes the three process cycle as depicted in the figure below.…

A: NOTE: As per guidelines, I can solve first three parts of the problem. If you need help with other…

Q: An ideal gas undergoes the cycle shown in the figure below: it expands isobarically at pressure p…

A: Given P-V diagram for the three step cycle

Q: A gas follows the PV diagram in the figure below. Find the work done on the gas along the paths AB,…

Q: In the PV diagram shown in Figure B1, an ideal monatomic gas undergoes isothermal expansion from…

Q: Consider a 44.8 g of O₂ gas that follows the given PV diagram. [Answer in 3 significant figures] Cy=…

Q: Which point(s) shown on the pV diagram will have the same temperature as point A? (Assume this is…

Q: What is the heat delivered to the gas for process #2 (the diagonal line process) as illustrated on…

A: In the given question, the gas goes through a cyclic process consisting of processes 1, 2 and 3.…

Q: pressure versus volume (pV) diagram for a system is hown in the figure. The arrows of the curve…

Q: Which of the following curves most accurately describes all points that have the same temperature as…

A: “Since you have posted multiple questions, we will provide the solution only to the first question…

Q: Please refer to the picture when answering the questions. 0.05 mole of helium is expanded from 1…

A: a) Work done by gas in isobaric process is given by W=PVfinal-Vinitial=1.013·1052-1=101300 Joules

Q: An ideal gas is taken through the four processes shown in the figure(Figure 1). The changes in…

Q: 2 moles of a monatomic ideal gas undergoes a cyclic process as depicted in the figure below. The…

A: Since it is an ideal gas PV = nRT 11.5x5.7 = 2 x0.082 xT T = 399.69 K γ(for monoatomic gas) = 53…

Q: Р d a Va TH Tc b 3V₂ V

Q: 1.0 mol of an ideal gas undergoes the process illustrated on the pV diagram below. What is T3? Use…

A: In the given question, Number of moles of gas (n) = 1 The gas undergoes isobaric process ( constant…

Q: Consider the four-process cycle shown in the P-V diagram in the figure below. The graph shows a…

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: a) IAF You may have entered the work done by the gas on the environment instead of the work done…

A: a) For the path IAF, the work done on the gas can be determined as, Here, WIA and WAF represent the…

Q: A gas expands from I to F in the figure below. The energy added to the gas by heat is 252 J when the…

A: Given, heat given to the gas for process I to F diagonally isQIF=252J Pressure at I is PI=4…

Q: system consisting of 0.0816 moles of a diatomic ideal gas is taken from state A to state C along the…

A: In order to find the lowest temperature of the gas, we will use the ideal gas equation PV=nRTAt…

Q: A particular thermodynamic cycle acting on a monatomic ideal gas (y = 1.67) includes an isobaric…

A: γ = 1.67 P1 = 2.265 x 105 Pa V1 = 5.9 x 10-2 m3 V2 = 10.98 x 10-2 m3 Now, for monoatomic gas - Cv =…

Q: A gas is taken through the cyclic process shown in the figure. For one complete cycle, how much heat…

A: For a cyclic process, the change in internal energy of the working fluid is equal to zero. Apply…

Q: 2 moles of an ideal diatomic gas undergoes the three process cycle as depicted in the figure below.…

A: Given, pa = 1.4 x 105 Pa pb = 1.4 x 105 Pa Va = 0.7 m3 Vb = 0.35 m3 Vc = 0.35 m3

Q: Calculate the amount of work done on the system from 0–2 (Wo2) and then for the entire curve from…

A: The work done in a PV diagram is area (A) under the curve. W02=A01+A12=1.37×104 Pa27.8 m3-20.8…

Q: 3. What is the average translational KE of Nitrogen molecules at 1600 K?

A: Given: Temperature (T)= 1600 K To find: Translational kinetic energy can be denoted as,

Q: An ideal gas is taken from a to b on the pV diagram shown in the figure. During this process, 700 J…

Q: A quantity of a monatomic ideal gas undergoes a pro- cess in which both its pressure and volume are…

A: Given, a pressure vs. volume graph. The internal energy can be found as: ∆U=nRT For an ideal gas:…

Q: A 1.00-mol sample of an ideal monatomic gas is taken through the cycle shown in the figure. The…

Question

100%

An ideal gas initially at pressure P₀, volume V₀, and temperature T₀ is taken through the cycle described in the figure below. (Assume n = 4 and m = 7.)

A rectangular path is plotted on a PV diagram that has a horizontal axis labeled V, and a vertical axis labeled P. The area inside the rectangle is shaded. The path is clockwise and runs through corner points A–D in the following order:

A (V₀, P₀),
B (V₀, nP₀),
C (mV₀, nP₀),
D (mV₀, P₀).

(a) Find the net work done by the gas per cycle in terms of P₀ and V₀. (Substitute numeric values for n and m, do not use the variables n and m.)
W_env=
(b) What is the net energy Q added to the system per cycle? (Use the following as necessary: P₀ and V₀.)
Q =
(c) Obtain a numerical value for the net work done per cycle for 1.00 mol of gas initially at 0°C. Hint: Recall that the work done by the system equals the area under a PV curve.
kJ

Expert Solution