## Learning Goal: I’m working on a electrical engineering exercise and need a sampl

Learning Goal: I’m working on a electrical engineering exercise and need a sample draft to help me learn.I need solution for this problem:Dimension a p-controller as much reinforcement as possible so that the closed system meets the following specifications. amplitude margin Am> = 3 times and phase margin> = 50 degrees. Enter the controller gain dimensionless, ie in times.
Requirements: as solution needs   |   .doc file

## Learning Goal: I’m working on a electrical engineering question and need support

Learning Goal: I’m working on a electrical engineering question and need support to help me learn.Please see details in the attachement.Please do not plagiarize.Please submit a zip file that contains a report (in .pdf format) which includes the MATLAB code you wrote for each problem, the result for each problem (in terms of plots and necessary discussion), and individual .m files. You could use the “live script” feature of MATLAB to generate your report.

## Learning Goal: I’m working on a electrical engineering case study and need an ex

Learning Goal: I’m working on a electrical engineering case study and need an explanation and answer to help me learn.Hello this is a TMA sheet that has part 1 aswell but for some reason I could’nt copy it. but its in the document attached. also please tell me if you want any lectures or documents to solve this.Case Study: Antireflection coating for solar cellsChoose any type of a solar cell panel and design an antireflection coating. Simulate the optical (light) response for this coating and evaluate its efficiency to reduce reflection and capability to operate in a wide-angle range. You can either choose to simulate commercially available antireflection coating or design your own.1.Choose the material – either currently used or suggest a new one. Explain why did you choose this material for antireflection coating. Provide references.2.Provide a sketch of the coating design with an indication of the geometrical parameters and schematic principle of the operation.3.Derive the equation for the coating and describe solution using the Transfer Matrix Method.4.Plot Reflection and Transmission functions across the visible range for normal incidence of light.5.Demonstrate the operational angle range for your coating. Plot 3D simulation of Reflection and Transmission functions across the visible light range and angles of incidence from normal to horizontal (90).6.Discuss the efficiency of the designed antireflection coating.ReplyForward
Requirements: 5-10 pages   |   .doc file

## Learning Goal: I’m working on a electrical engineering multi-part question and n

Learning Goal: I’m working on a electrical engineering multi-part question and need guidance to help me learn.send the assignment with the questions. write the answers in the same file i provided.any equations should be written in equation editor in word doc no handwritten answers
Requirements: word doc

## Learning Goal: I’m working on a electrical engineering multi-part question and n

Learning Goal: I’m working on a electrical engineering multi-part question and need guidance to help me learn. send the assignment with the questions. write the answers in the same file i provided.any equations should be written in equation editor in word doc no handwritten answers
Requirements: word doc

## Learning Goal: I’m working on a electrical engineering multi-part question and n

Learning Goal: I’m working on a electrical engineering multi-part question and need guidance to help me learn.Do NOT the assignment without the questions. write the answers in the same file i provided. any equations should be written in equation editor in word doc no handwritten answers
Requirements: WORD DOC

## Learning Goal: I’m working on a electrical engineering test / quiz prep and need

Learning Goal: I’m working on a electrical engineering test / quiz prep and need an explanation and answer to help me learn.There is an electrical engineering exam I need help with. The exam is on the course Electric and Magnetic Fields that follows the textbook, “Elements of Electromagnetics, by Matthew N. O. Sadiku, Seventh Edition, (Oxford Univ. Press, 2018). ISBN: 978-0190698614.” 1st half of the textbook. I have included slide lectures from the course and homework solutions. The more work/details, the better please. I would need the help done by 12-12-21 at 6:00PM PST USA Time Zone.
Requirements: Filled out PDF

## Learning Goal: I’m working on a electrical engineering project and need an expla

Learning Goal: I’m working on a electrical engineering project and need an explanation and answer to help me learn.Make sure you write down the reasoning and justification for any Python code cells created. The Python code is only there to support you computationally for your simulation and optimization analyses. Additionally, make sure to justify any conclusions you make to answer questions with quantitative reasoning.
Requirements: 3 Pages   |   .doc file

## Learning Goal: I’m working on a electrical engineering question and need guidanc

Learning Goal: I’m working on a electrical engineering question and need guidance to help me learn.1. This assignment Is based about questions from Electric and Magnetic fields class and the class uses is Elements of electromagnetic by Mathew N.o and Sadiku, Seventh Edition.2. Read the file I uploaded to see if your familiar with it before you make the bid3. Each question is divide into points as the chart says in the file.4. The questions are all about magnetic fields.5. You have a day and 7 hours to complete
Requirements: Precise

## Learning Goal: I’m working on a electrical engineering discussion question and n

Learning Goal: I’m working on a electrical engineering discussion question and need an explanation and answer to help me learn.This is a circuit analysis question regarding the PNP transistor solving the question using small-signal analysis. the details are shown in the pdf file attached.
Requirements: as long as it needs to be.   |   .doc file