Please help me understand and show work! thank !
Please help me understand and show work! thank ! The figure shows five processes plotted in...
The ρ didui din in he figure below shuws a set u hemodynamic processes hat make up d cycle ABC A or a monatornic gas, where AB is an isothermal expansion ou cumnu a a ern era ure o 350 K. There are 2.15 mol of gas undergoing the cycle with PA-1.0110 Pa, PH 5.20x105 Pa, and Pc 2.02 x 105 Pa. Pc (a) Find the volumes V and Vs- m3 m3 012 (b) Flnd the work done in each...
Please help me solve these problems, and show your work on the math related ones, thank you in advance! 12. A weatherman reports that the temperature will reach a high of 308.2 K. Your mother is freaking out about the weather report until you show her that 308.2K is equal to ... ^oC 13. If you plot a graph with Fahrenheit temperatures along the vertical axis and the corresponding Celsius temperatures along the horizontal axis, the slope of the will...
TB4 The PV diagram in the figure is for n moles of an ideal monatomic gas. The gas is initially at point A. The paths AD and BC represent isothermal changes. R is the universal gas constant. Let the pressures, volumes, and temperatures at the labeled points be denoted as PA , PB, etc., and VA , VB, etc., and TA, TB, etc., respectively. If the system is brought to point C along th<e path A-»E->C, what is the heat...
0.25 moles ofa monatomic ideal gas starts from point a (400Pa and Im3) in the diagram as shown. It undergoes a constant pressure expansion from a to b (2m3); an isothermal process from b to c (3.2m3); a constant volume process c to d (125Pa); and an isothermal compression from d back to a. Problems 2-5 400 b a 300 2a. Find the temperature values Ta, Tb, Te and Td. 200 100 3 4 1 2 volume (m3) 2b. Find...
See diagram 4. 22.8 moles of a diatomic ideal gas undergo three steps: A to B is an isobaric (constant pressure P1 = 5.25x106 Pascal) expansion from volume V1 = 0.0248 m3 to V2 = 0.956 m3. B to C is isochoric (constant volume) C to A is isothermal (constant T). During the isobaric expansion from A to B: find Q, the heat transferred, in Joules. Give your answer in scientific notation. NOTE: A positive sign means heat has been...
2. The graph in the shows a pV diagram with reversible work for 3.0 moles of ideal argon gas. Process ab is isobaric, bc ischoric, and ca adiabatic. p(Pa X 105) 2.0 0 0.010 0.040 a. What is the pressure pa, and what are the temperatures Ta,Tb, and T? b. For each of the three processes: ab, bc, ca find Q, AU and W. c. For the entire circuit a + b + c + a what are Q, AU...
Goal Solve for the efficiency of a heat engine using a five-step process the includes: 1. Making a state table. 2. Making a process table. 3. Calculating the totals for Work, Heat, and Internal-Energy-Change. 4. Identifying the heat input (hot reservoir) and output (cold reservoir). 5. Calculating the efficiency of the engine. isothermal Problem Shown in the figure to the right is a cyclic process undergone by a heat engine. Your heat engine shall use 10.0 moles of nitrogen gas...
Problem 2: In a given lab session a group of students performed a sequence of thermodynamic processes to a given gas. Before performing the process the studenta recorded the initial pressure of the gas as being 101.5 kPa and its temperature equal to 2000 The sequence can be described as firstly isochoric heating in which the gas temperature is increased by 25% of its initial temperature, followed by an isothermal compression in which the volume of the gas is reduced...
A, B , D ,E PLEASE SOLVE THEM ( DETAILED SOLUTION + CLEAR HANDWRITING) In this question, assume no changes in Ek or Ep (a) In one cycle of a heat engine: 70 J are input by working, 90 J are output by working, 100 J are input by heating, 80 J are output by heating. Write down which one of the following is true: (A) |Wnet-160 J (B) Iw.et-20 J (C) η-0.25 (b) For a fixed amount of gas,...
Goal Solve for the performance coefficient of a refrigerator using a five- step process the includes: 1. Making a state table. 2. Making a process table. 3. Calculating the totals for Work, Heat, and Internal-Energy-Change. 4. Identifying the heat input (cold reservoir) and output (hot reservoir). 5. Calculating the performance coefficient of the refrigerator. isothermal Problem Shown in the figure to the right is a cyclic process undergone by a refrigerator. Your refrigerator shall use 8.0 moles of helium gas...