pls answer both questions thankyou Consider 5.2 pounds per minute of water vapor at 100 Ib/in?, 500°F, and a velocity of 100 ft/s entering a nozzle operating at steadystate and expanding adiabatically to the exit, where the pressure is 40 Ibf/in?. The isentropic nozzle efficiency is 95.0%.Determine the velocity of the steam at the exit, in ft/s, and the rate of entropy production, in Btu/min-°R.Step 1Determine the velocity of the steam at the exit, in ft/s.V2 = ift/sHintSave for LaterAttempts: 0 of 1 usedSubmit AnswerStep 2The parts of this question must be completed in order. This part will be available when you complete the part above.

Answered: Image /qna-images/answer/e2669da2-dd28-411a-b59b-c74a0dbb31b5.jpg

Answered: Consider 5.2 pounds per minute of water…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Discuss the during an internally reversible, adiabatic (isentropic) process, the entropy remains constant.
Consider 5.2 pounds per minute of water vapor at 100 lbf/in2, 500oF, and a velocity of 100 ft/s entering a nozzle operating at steady state and expanding adiabatically to the exit, where the pressure is 40 lbf/in2. The isentropic nozzle efficiency is 95.0%. Determine the velocity of the steam at the exit, in ft/s, and the rate of entropy production, in Btu/min·oR.
Air enters an adiabatic turbine at 2200 kPa, 1640 K and 42 kg/s. It exits at 95 kPa and 880 K. Using variable specific heat analysis, determine: The power produced by the turbine, in kW. The isentropic efficiency of the turbine. The rate of entropy generation in the turbine, in kW/K.
In an actual cooling process of a closed system the entropy generation is: (a) positive, (b) negative, or (c) zero. explain why?
What is the change in entropy when 120 g of superheated methanol gas at 1.00 bar and 110.0 °C is cooled and condensed to liquid methanol at 1.00 bar and 90.5 °C?
What is entropy and its application?
Select all proper statements below to explain that the internally reversible process is an isentropic process_______ A. The entropy generation is zero for reversible processes B. The entropy transported by heat is zero for reversible processes C. The entropy transported by heat is zero for adiabatic processes D. The entropy generation is zero for adiabatic processes
Water vapor enters an adiabatic turbine at a pressure of 15 MPa and a temperature of 1000 ° C, with a flow rate of 8 kg / s, and comes out at a pressure of 1 MPa and a temperature of 700 ° C. What is the entropy generation that occurs in the turbine? A) 5,1 kW/K B) 3,53 kW/K C) 0,64 kW/K D) 6,9 kW/K E) 3,15 kW/K
When 1.5 kg of water at 14.1 ∘C is mixed with 3.0 kg of water at 39.9 ∘C in a well-insulated container, what is the change in entropy of the system?
Q: 1.1m³ of air is heated reversibly at constant pressure from 25°C to 310°C, and then cooled reversibly at constant volume back to the initial temperature, the initial pressure is 1 bar. Calculate: 1. The net heat flow, 2. The overall change of entropy. 3. Sketch all processes on (T-S. P-V. T-V) diagrams.
1-Air enters an adiabatic nozzle at a pressure of 374 kPa and 500 K and exits at a pressure of 80 kPa. Since the change of state is reversibleWhat is the temperature at the outlet? A) 380,5 K B) 330,4 K C) 323,2 K D) 290 K E) 120,7 K
Hot combustion gases enter the nozzle of a turbojet engine at 260 kPa, 747°C, and 80 m/s, and they exit at a pressure of 85 kPa. Assuming an isentropic efficiency of 92 percent and treating the combustion gases as air, determine the exit velocity.

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