Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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10. Oxygen at 200kPAg, 27°C is contained in a piston cylinder assembly arranged to maintain a constant pressure process. How much work in kJ/kg is produced by the system when it is heated to 300°C? Draw a figure or graph that will support the problem. Explain each step by step formula.
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- Problem 4: An engine operating on an ideal Diesel cycle has a cylinder volume when the piston is at bottom-dead-center (BDC), V₁ 1 liter = 0.001 m³. The intake pressure and temperature are P₁ = 300 K. The engine cycle contains the following processes: 100 kPa and T₁ = Adiabatic compression to V₁/24. Constant pressure heating to V₁/14. =arrow_forwardProvide clear and complete solution as well as a diagram for below given problem. 1 kg of mixture at 250oC and with enthalpy of 1861 KJ/kg and s = 4.275 KJ/kg-K undergoesisothermal process. Heat is applied until the steam becomes saturated. Determine the heatadded. At 250oC: sf = 2.7927, hf = 1085.36, hfg = 1716.20 A. 940.25 KJ B. 1715.32 KJ C. 863.45 KJ D. 634.34 KJ Answer: Aarrow_forwardQ1: Find the missing properties and give the phase of the substance a. H2O u = 2390 kJ/kg, T= 90°C h = ? v = ? x = ? b. H2O u = 1200 kJ/kg, P = 10 MPa T= ? x =? v = ?arrow_forward
- ! Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Determine the hfg of refrigerant-134a at 20°F. Use data from the tables. The gas constant of refrigerant-134a is R= 0.01946 Btu/lbm.R. Consider Clapeyron-Clausius equation for calculations. The hfg of refrigerant-134a at 20°F is Btu/lbm.arrow_forward2) Two glass bulbs, one on the left with a volume of 2 liters and the other on the right with avolume of 6 liters, are connected to one another by a thin tube that is initially closed by astopcock. The bulb on the left has 0.1 moles of ideal gas, and the bulb on the right isevacuated. The system is in thermal equilibrium with the surroundings at 300K. When thestopcock is opened, the gas flows out to fill both bulbs. Calculate A for this process. If wewere to insert a propeller to extract work as the gas flows from left to right, what is themaximum amount of work that we could possibly extract?arrow_forwardPlease answer part ii only given that the answer to part i is-20 degreesarrow_forward
- Use image below Part A - Evaluate the volume and internal energy of the air in the initial state 1, in the intermediate state 2, and in the final dead state DS. Also evaluate the temperature of the air in the intermediate state 2. PArt B - Plot the processes 1 → 2 → DS on P–v, T–v, P–s, and T–s diagrams. Mark states 1, 2, and DS on the graphs, and make sure that it is clear when a given quantity increases, decreases, or remains constant.arrow_forwardParagraph 4: For H2O, find the following properties using the given information: Find P and x for T 140°C and h 1800 kJ/kg. %3D A. P-361.3kPa X-56 % B. P-617.8KP. X-54% C. P-101.3kPa X-49.8 % D. P-361.3kPa X-51% Paragraph 5: For H2O, find the following properties using the given information:arrow_forward
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