Induction heating coil II wall internal Rod thickness of wall
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this cylinder has a rod inside (same height as the cylinder), around the rod there is paraffin wax that will expand, I want to know how to reduce the thickness of this cylinder. However, I don't know what formulas I need to be able to do this. Can you explain the process I have to do?
Please can you make an example with the data you choose to have an example of how to do this step by step? Thank you Also keep in mind that the wax is expanding by an induction coil, and the heat is happening around the cylinder. And the thickness of the stainless steel cylinder has to be thin but not so thin that it causes a pressure problem. So is more of a geometry problem. Thank you
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- A cylinder contains 0.250 mol of carbon dioxide (CO₂) gas at a temperature of 27.0°C. The cylinder is provided with a frictionless piston, which maintains a constant pressure of 1.00 atm on the gas. The gas is heated until its temperature increases to 127.0°C. Assume that the CO₂ may be treated as an ideal gas. Part A How much work is done by the gas in this process? Express your answer in joules. — ΑΣΦ W = Submit Part B On what is this work done? The work is done on the piston. The work is done on the cylinder. Submit Part C Request Answ AU = What is the change in internal energy of the gas? Express your answer in joules. ΑΣΦ Submit Request Answer Request Answer P Pearson W ? ? J JThe pV diagram in (Figure 1) shows the cycle followed by the gas in an ideal-gas refrigerator whose coefficient of performance is 1.5. The work done by the system during two adiabatic processes is shown. Figure P 4 Adiabats 1 of 1 > W₁ = -119 J W, = 79 J V ▼ ✓ Correct Part F What is Win for one cycle of this heat engine? Express your answer with the appropriate units. View Available Hint(s) Win = 119 μÅ Submit Previous Answers Request Answer Part G Complete previous part(s) J X Incorrect; Try Again; One attempt remaining Part H Complete previous part(s) Provide Feedback ?Please and thank you for your help! Make sure the answer is in the correct units! NO TUTOR HAD GOT THIS CORRECT
- A sophomore with nothing better to do adds heat to 0.480 kg of ice at 0.00° C until it is all melted. Part A What is the change in entropy of the water? Express your answer with the appropriate units. µA ? ASı Value Units Submit Request Answer Part B The source of heat is a very massive body at a temperature of 25.0° C. What is change entropy this body? Express your answer with the appropriate units. HÁ ? AS2 = Value Units %3D Submit Request Answer Part C What is the total change in entropy of the water and the heat source? Express your answer with the appropriate units.I need help with A and B for this problem. I want to see the detailed steps.Help me number 4 please do it step by step.and make sure that I can understand the words and symbols do you use
- A 12 g bullet is fired from a gun and moves vertically upwards at a velocity of 950m/s and strikes a 2kg brick which is originally at rest, as shown in the picture below. If the bullet emerges from the brick at a speed of 290m/s, determine 1. What is the The maximum height to which the brick rises? 2. What is The increase in the internal energy of the whole bullet-brick system? 290 m/s 950 m/sCould I receive a detailed responsePlease help me with these questions a. What is the name given to this cycle, and why is it important? The volume of the ideal gas at point 1 is V1, etc. By analysing the adiabatic processes, we find that: V_2/V_1 = V_4/V_3 b. The work done during the isothermal processes is WC (between points 1 and 2) and WH (between points 3 and 4). Find an expression for the fraction WC / WH in terms of TC and TH. c. Apply the First Law of Thermodynamics to the isothermal processes to show that the efficiency of this cycle is (please see the image with the corresponding formula for question c) d. Use the Second Law of Thermodynamics to explain why no heat engine can be more efficient than a perfectly reversible engine. You may wish to include a heat flow diagram in your answer.
- Can you answer a b and cCan You please answer the following by breaking down the working.= 2 is taken through a cycle as shown in the figure to the right, which is not necessarily drawn to scale. n moles of an ideal gas with adiabatic index Y The cycle proceeds as follows: 1– 2 is an isobaric compression to V2= Vo/2 2 – 3 is an isochoric process with P3 = 3P0 3 – 4 is an isothermal compression to V4 = Vo/4 4 – 5 is an isochoric heating process 5 – 1 is an adiabatic expansion back to Vo ЗРо Ро Vo/4 Vo/2 Vo (a) at constant pressure, What are Cv, the molar specific heat at constant volume, and Cp, the molar specific heat for this gas? Your answer should be in terms of n, R, T , or a subset of these quantities. (b) ( diagram) in terms of Po, and the temperatures T,, T3 , T4 , and T3 (the temperatures at points 2 – 5) in terms of To. All work must be shown. Find the unknown quantities P4 and P5 (which are the pressures at points 4 and 5 on the (c) Find the work done on the system in terms of n, R, T, , and pure numbers only for the 3, 3 → 4, 4 → 5, and 5 → 1. Make sure to show…