EE318 Course Introduction
Course Overview
Course Website: http://www.nerdacademy.com/electrical-circuits-ii.html
Prerequisite: Pre-req: EE321, EE322, EE323, EE324 or equivalent courses.
Instructor: Dr. Scott Anderson, Professor of Electrical Engineering and Computer Science at Iowa State University.
Course Description:
EE318 is a senior capstone class in the EE department. It focuses on the skills needed for electrical engineering students to be successful as engineers by developing
EE318 Course Description
Course Description (PDF) Syllabus for EE318 – Electrical Circuits II (PDF) Course Outline For EE318 – Electrical Circuits II (PDF) PDF Reserves: 2 hrs. Lecture hours: 9 hrs. Lab hours: 1 hrs. Total hours: 10 hrs.
Lecture Hours: 1.5 hrs.
Laboratory Hours: 8 hrs.
Semester Credits and Grading System:
Credits/Grading System C
Equivalent to a grade of A
Universities Offering the EE318 Course
at University of California, San Diego (UCSD)
University Course Title University of California, San Diego (UCSD) EE318 – Electrical Circuits II (EE318) Information Engineering Computer Science and Engineering Electrical Engineering and Electronics
Similar eCampus Courses
EE338 – Electric Power Systems EE326 – Applied Optoelectronics EE401 – Computer Networks EE311 – Circuit Analysis I EE374 – Digital Signal Processing I EE311 – Circuit Analysis I EE311A – Analog & Digital Communications I ee
EE318 Course Outline
– Course Outline for EE318 – Electrical Circuits II (ELEC 318) – Syllabus for Electrical Circuits II (EE318) – Course Outline for EE318 – Electrical Circuits I (ELEC 318) – Syllabus for Electrical Circuits I (ELEC 318) The Electro-Magnetic Spectrum is the range of frequencies of electromagnetic radiation. It is usually subdivided into optical and radio spectrum. The human eye can only detect photons within a certain range of wavelengths
EE318 Course Objectives
1. Design circuits using schematic capture software. The circuit above is not a perfect circuit, it has several errors and I have corrected these in the schematic below.
EE318 Course Pre-requisites
are as follows
Course Goals:
This course is about the study of the principles and design of electronic circuits, including analog and digital integrated circuits. It aims to impart knowledge in the form of lectures and demonstrations, which will enable students to understand the concepts involved in designing and analyzing electronic circuits.
Course Description: This course will concentrate on providing a comprehensive overview of electronic components and circuits, including their history, applications, basic circuit theory, semiconductor devices, logic families, registers, counters, multiplexers/d
EE318 Course Duration & Credits
Credit Hours: 3
Prerequisite: EE318 Course Duration & Credits for EE318 – Electrical Circuits II (EE318) Credit Hours: 3
Pre-requisites are fulfilled by passing the course.
This course builds upon the electrical circuits lecture course, and is designed to prepare students for more advanced courses in electrical circuits and electronics. Topics include diodes, transistors, opamps, battery charging, surge current protection and circuit noise analysis. Students will use analog circuit simulations to build
EE318 Course Learning Outcomes
EE318 Unit 1 – Introduction to Electrical Engineering
EE318 Unit 1 – Introduction to Electrical Engineering EE318 Unit 2 – Circuit Analysis I
EE318 Unit 2 – Circuit Analysis I EE318 Unit 3 – Electrical Circuits II (EE318) EE318 Unit 4 – Electromagnetic Field Theory (EE317)
EE318 Unit 4 – Electromagnetic Field Theory (EE317) EE318 Unit 5 – Measurement and Instrumentation (EEE203) EE318
EE318 Course Assessment & Grading Criteria
(3-0-4) * This is the final exam for EE318. The course grades will be based on the following grading criteria: A=100-90 B=89-80 C=79-70 D<69 F= below 69
All work and class attendance will be graded.
A student whose score is below 30 on any quiz will not receive a passing grade. Any incomplete grade must be submitted with a note from the instructor stating why the work is not completed or
EE318 Course Fact Sheet
Credit hours 3-3-0 Prerequisite EE318 Course Outline EE318 Course Structure Hrs. Wt. Textbooks/Other Materials EDCS E316 – EE318 W, MW (Prerequisites: EE328 & E303) Readings and Supplementary Material MATH 243 – Calculus I (Prerequisites: MATH 126 & MATH 140) Laboratory ECE 240 – Electronic Circuits I (Prerequisites: ECE 122 & ECE 123
EE318 Course Delivery Modes
and EE318 – Circuits Lab (EE318) N/A
Preview 2017-18 Course Offerings and/or descriptions are subject to change. This course schedule may be subject to minor editing. If a change is needed, students will be notified before the start of the semester.
Course Information
This course covers the fundamental principles of electricity and magnetism, including: current electricity, electric circuits, electromagnetism, transformers, electrical machines and generators, power electronics, digital communication systems.
Pr
EE318 Course Faculty Qualifications
Classrooms and Laboratories Virtual (Online) Number of Weeks 6.5 Credits 3.0-3.5 Prerequisites or Corequisites EE 318 and EE 319 or EE 320, or permission of the instructor. Distribution Elective Course Coordinator Dr. Thomas E. Dailey Address: CVM P.O. Box 220138
Tallahassee, FL 32317-0138
Phone: (850) 644-1082
Fax: (850)
EE318 Course Syllabus
1. Course Description: EE318 is a continuation of EE318. This course consists of fundamental topics that are important to understand electrical engineering such as Power, Voltage, Current, and Power electronics.
Technical reports for engineers – Wiley
Tech reports for engineers / edition 9 by John G. Willig, Robert T. Cudeck ; foreword by Ralph A. Massie John G. Willig This revised edition includes material on stability and performance in power electronic converters; high-frequency circuits;
Suggested EE318 Course Resources/Books
1. Computational and Experimental Techniques for Transmission Lines: Fundamentals ( EE318) : a lot of this book is online and can be downloaded for free. This tutorial consists of 28 lecture slides, videos, lab exercises, and chapter quizzes. I have the full class notes and quiz files from the course so you can always just download them again if you want to. The lectures are also searchable with tags in the file names to help you find what you need in your search. It’s a
EE318 Course Practicum Journal
Students: Please complete the following journal entry. Use complete sentences to describe your experiment, explain the reasons for your results, and draw conclusions based on your data. You may also include an explanation of how you designed your device to achieve your goals.
This is just a sample.
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Suggested EE318 Course Resources (Websites, Books, Journal Articles, etc.)
> University of Colorado Boulder, Fall 2017
Course Websites: New syllabus for EE318 – Electrical Circuits II (EE318) > University of Colorado Boulder, Fall 2017 Please use the following links to view course websites. Course Calendar: Calendars and other important dates for EE318 – Electrical Circuits II (EE318) > University of Colorado Boulder, Fall 2017
Calendars and other important dates for EE318 – Electrical Circuits II (EE318) >
EE318 Course Project Proposal
submitted to the Engineering Department of University of California Davis, in partial fulfillment of the requirements for the degree of Master of Science in Electrical Engineering.
Date 5/9/2011
Citations (20)
Abstract
A high accuracy nonintrusive power quality analyzer is proposed to determine the root mean square (RMS) voltage and current amplitude errors of a three-phase power system which has been distorted by a transmission line. The overall architecture is based on a digital PMSM bridge with
EE318 Course Practicum
This course will consist of a total of 12 hours of Practicum. A total of 3 hours must be taken at a commercial lab, and the remaining 9 hours must be at BYU. (3) The Applied Electronics Lab of the Electrical Engineering Department is open for practicum only during the times when the other BYU classes are not in session. (4) Lab work will be done with your instructors’ permission. (5) You are required to provide your own tools, test equipment,
Related EE318 Courses
EE318 The course aims to give students a solid foundation in the analysis of electric circuits. It covers real-world applications of electricity and electronics. The topics are arranged from basic circuit theory to circuit analysis, while carefully integrating different types of circuits such as electrical machines, power electronics, electronic instruments and communication systems. This is the second course in the sequence that begins with EE310 – Principles of Electrical Engineering. Topics include: Analysis and design of simple electric circuits using the techniques described in previous courses; Nonlinear
Midterm Exam
Spring 2005 A. Find the general solution of the system : b x+ y=2 4x−y=8 2x+y=10 3x−y=3 b 2x−y=9 4 x+y=7 c 5x-3y=-13 d y(1−3x)=6 e y(2x)=8 f y(x) = (4xy)(7+x) g y(x) = −(y+
Top 100 AI-Generated Questions
– the University of Queensland
This is a question bank for EE318. As the demand increases, we will continue to add questions to the bank.
– Q.1) A 5 V voltage source is connected across two resistors in series with a capacitor and an inductor, as shown in Fig. 4.5. The voltage across all three resistors is about 4 V. Find the resistance of each resistor.
– Q.2) Calculate the current flowing through each resistor when
What Should Students Expect to Be Tested from EE318 Midterm Exam
(Fall 2018)
Please Note: All the questions on this exam are from the Midterm Exam for EE318, Electrical Circuits II (EE318) (Fall 2018).
Midterm Exam Questions
Q1. A 0.100-mF capacitor is connected across a battery with a potential difference of 12.0 V and an inductor with a length of 4.00 m. At what ratio of capacitance do you expect the equivalent circuit to be most stable
How to Prepare for EE318 Midterm Exam
– Spring 2015 at University of Texas at El Paso
Be sure to check the review section as it is updated periodically. You will have the opportunity to ask questions in class if you do not understand any content from the review.
The materials below are for your reference only. They are not the final version of the answers and may be slightly different than what you will be given on exam day.
EE318 Review Questions
1. A capacitor has a capacitance of 10 nF, a
Midterm Exam Questions Generated from Top 100 Pages on Bing
– Spring 2018 – Page 4
EE318 1. Suppose a motor with a permanent-magnet rotor has a power dissipation of 30 W at stall current of 10 A and an efficiency of 90 %. What is the slip ratio? A) .09 B) .18 C) .36 D) .75 E) None of these.
EE318 2. Given the following statement, what would be the value of the magnetic field intensity inside the iron core?
Midterm Exam Questions Generated from Top 100 Pages on Google
(PDF Document) This document contains 30 midterm exam questions (each on 10 pages) from EE318 – Electrical Circuits II (EE318) which were generated from the Google search for EE318 – Electrical Circuits II. It is expected that you will be able to answer all of these questions with minimal study. The purpose of this file is to provide additional practice material to help your understanding of circuits and electronics. Page 1 of 12 Midterm Exam #1, Spring 200
Final Exam
, 5.00
Guided independent study, 20.00
Notes on Essential Topics (EE318) , 5.00
Lab Worksheet (EE318) , 5.00
Final Exam for EE318 – Electrical Circuits II (EE318), 2.00
Lab Meeting Notes (EE318) , 1.50
Top 100 AI-Generated Questions
– Course Hero
Page 1 of 9
EE318 – Electrical Circuits II (EE318) – Course Hero
EE318 Syllabus
This is a sample syllabus for the course EE318, Electronics I. The course is designed to develop students’ understanding of fundamental concepts and principles in electrical engineering. Students will learn to solve problems using the basic techniques taught in most courses.
Topics covered include:
– Basic electronics: voltage sources, power, measurement
– DC and AC circuits
What Should Students Expect to Be Tested from EE318 Final Exam
– Spring 2019
Course Description
This course covers the analysis of static circuits with three- phase, voltage, and current sources. Topics covered include: V-I characteristics of basic resistive and inductive circuit elements; complex impedance of capacitors and inductors; equivalent resistance of series and parallel combination; flux density distribution; complex integration methods to find parameters.
Learning Outcomes
1. To provide an understanding of the concept of electric power.
2. To provide knowledge regarding the use of
How to Prepare for EE318 Final Exam
– Spring 2016
Test Instructions: Please submit your answers in the provided blank spaces.
A current of 1 ampere is flowing through a resistor. The resistance of the resistor is 25 ohms. The following data were recorded when a 12-volt DC battery was connected to the end of a light bulb:
(a) Find and plot the voltage across the resistor in volts.
(b) Find and plot the current flowing through the resistor in amperes. If necessary, find an
Final Exam Questions Generated from Top 100 Pages on Bing
| Quizlet
EE318 – Electrical Circuits II (EE318) Quiz
Find the Final Exam Questions Generated from Top 100 Pages on Bing for EE318 – Electrical Circuits II (EE318)
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Final Exam Questions Generated from Top 100 Pages on Google
(2018-2019) 3.00 out of 5 Information Science & Library Science (ISSN: 2451-6256; CODEN: ITSLAHS)
ISSN: 2451-6264; CODEN: ITSLAHS
ISSN: 2251-6234; CODEN: ITSLAHS
ISSN: 2155-0850; CODEN: ITSLAAI
ISSN: 2155-
Week by Week Course Overview
EE318 Week 1 Description
in ODU’s Electrical and Computer Engineering Department. Week 1: Introduction to Circuits Electrical Circuit Analysis EE318 Week 2 Description for EE318 – Electrical Circuits II (EE318) in ODU’s Electrical and Computer Engineering Department. Week 2: Current Electricity and Power Quality EE318 Week 3 Description for EE318 – Electrical Circuits II (EE318) in ODU’s Electrical and Computer Engineering Department. Week 3: Electromagnetic Induction and Alternating Currents
EE318 Week 1 Outline
(a) Define what is meant by a circuit.
; define an ideal source and analyze it. ; use Kirchhoff’s Current Law to determine the current in the circuit. ; determine the voltage drop across each of the two resistors. (b) Explain how you can determine the currents in the two branches of a parallel circuit, and explain why it is important to do so. ; use Ohm’s Law to calculate the current in each branch of a series circuit, and explain why it
EE318 Week 1 Objectives
Week 1 Assignment Due: April 26, 2012 Week 1 Readings – Current Sources and Voltage Dividers Unit 3 of the textbook (pp. 84-98) – Please read Chapter 10 and Chapter 11 (p. 121-131) Units I and II of the textbook (p. 63-73) – Please read Chapters
Communication Systems – EE318 – week one
Introduction: Welcome to the second course in the Electrical Engineering Technology program at
EE318 Week 1 Pre-requisites
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Quiz 2 (15%)
Assignments (30%) Quiz 2 is based on articles that we discussed in the lecture. You should be able to answer at least 70% of the questions. More information on the quizzes will be sent to you.
Assignments (10%)
Readings (10%) Please read the article, “Geodesics and straight lines” found in your course package, which you will find at the end of this document.
Last Updated: Mar 11,
EE318 Week 1 Duration
Week 1 – Duration for EE318 – Electrical Circuits II (EE318) Week 1 – Duration: 00:50.
Duration : 0:50
| Category : EELECTRONICS
EE318 Week 1 Learning Outcomes
Week 1 Learning Outcomes (1) Create and analyze digital circuits using Altium Designer. Use of the electronic components in a circuit is shown on the schematic diagrams. At its best, a schematic diagram shows what is connected to what, where electrical connections are made, and how components are used. The first part of this chapter shows the fundamentals of breadboard wiring. In this tutorial we will be learning about 4 basic functions in SolidWorks: Assembly Solids… The second part of this chapter
EE318 Week 1 Assessment & Grading
Week 1 Assignment: EE318 Week 1 Discussion Question – Insulation and Capacitance (EE318) Week 1 Lecture: Earth Grounding in Electrical Power (EE318) Week 2 Discussion Question – Electromagnetic Interference (EE318) Week 2 Assignment: EE318 Week 2 Quiz – Electric Fields in Space (EE318) Week 3 Discussion Question – Voltage Drop and Load Characteristics (EE318) Week 3 Assignment: EE318 Quiz – Resistance, React
EE318 Week 1 Suggested Resources/Books
Assignment #2: Read Chapter 7 in the textbook, and complete the following exercises to review… $15.00 EE318 Week 1 Suggested Resources/Books for EE318 – Electrical Circuits II (EE318) Assignment #1: “A Bifilar Current Transformer” In this activity, you will discuss a current transformer design that uses… $15.00 EE318 Week 1 Suggested Resources/Books for EE318 – Electrical Circuits II (EE318) Assignment #
EE318 Week 1 Assignment (20 Questions)
– From the following electrical circuits, which circuit has the lowest resistance? Which circuit has the highest resistance? The resistor R1 is connected across a 5-V source and a 1.2-μF capacitor C1. Circuit #1 Circuit #2 T1 T2 V3 V6 V8 R1 R2 R4 R5 C1 (a) 10 mH b) 100 mH c) 1000 mH d) 1000 mW e
EE318 Week 1 Assignment Question (20 Questions)
– Homework Help. ECE 206: Human Communication and Learning to Communicate. The coursework includes a written exam, three project reports, and a written thesis proposal. This course is designed to provide students with an opportunity to improve their understanding of the basic principles of biological communication systems in a variety of fields including genetic engineering, drug design, and neuroscience. Coursework consists of problems solving assignments that will help you develop skills in problem solving and experimental design. Scaffolding your research process can be beneficial
EE318 Week 1 Discussion 1 (20 Questions)
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EE318 Week 1 DQ 1 (20 Questions)
for 41 points a. (6 Points)What is “power” and how do you use it? b. (5 Points)What is the relationship between resistance and power? c. (5 Points)What are three types of energy transfer and how do they work?
Q : What are the characteristics of the career Identify a possible career that interests you.
Q : Predicting electricity usage at home Your assignment should be 2 pages long, including cover page and reference page. You can
EE318 Week 1 Discussion 2 (20 Questions)
Week 1 Discussion 2 (20 Questions) for EE318 – Electrical Circuits II (EE318) at University Of Phoenix for only $13.99 USD.
EE318 Week 1 DQ 2 (20 Questions)
– eCampus – Online Bookstore for Purdue University Students
Date : Jul 15, 2019
Module: EE318 Week 1 DQ 2 (20 Questions)
DQ
1. What is the importance of keeping the correct resistance throughout a circuit?
A. The resistor itself is not important.
B. The resistor is needed to balance out current in an electrical circuit.
C. A resistance does not need to be kept constant throughout a circuit because it will eventually reach a
EE318 Week 1 Quiz (20 Questions)
at Strayer. Quickly memorize the terms, phrases and much more.
Earn College Credit for your EE218 – Electric Circuits I (EE218) at Strayer. Quickly memorize the terms, phrases and much more.
This is a bundle of 8 CCNA CCNP Review course chapters on Router Fundamentals, Network Security, Troubleshooting Networks, Switching Fundamentals, IP Routing Fundamentals, Network Troubleshooting and Network Management. Each chapter contains exercises with answers and explanations.
EE318 Week 1 MCQ’s (20 Multiple Choice Questions)
University of Texas at El Paso 2015. The D.I.Y. community has a place where you can learn about DIY projects and how to make things at home. You can also find tutorials on everything from building furniture to learning how to bake. Apr 12, 2020 · In this free course, Designing interactive experiences using CSS3 animation, you’ll discover a number of easy-to-use animation methods, including easing functions and keyframe animation. By the end of this course, you
EE318 Week 2 Description
EE318 Week 2: Circuit Analysis. This tutorial contains the following lessons: Lesson 1: Review of Formulas (3 lectures) Lesson 2: Solution of the system given in Fig. 5.1 by means of Laplace transform (7 lectures) Class Notes for EE318 Week 2 Download Class Notes for EE318 Week 2 as PDF File. Please check my course page for more tutorials and resources for EE318 week 2. For more information on this subject please visit
EE318 Week 2 Outline
1. Introduction to Circuits- 3; 2. Kirchhoff’s Voltage and Current Laws (EE318) – 2; 3. Parallel Circuits (EE318) – 3; 4. Power Sources in Series and Parallel (EE318) – 3; 5. Ohm’s Law for DC Circuits (EE318) – 3; 6. Electric Field Strength in DC Circuits (EE318) – 3; Review of
EE318 Week 2 Objectives
Week 2: Electrical Circuits II (EE318) – Week 2 homework due in class on 4/30/14. You may work the problems on your own, or I will post some homework problem sets and give you a chance to show me that you are able to complete them on your own. Submit the Homework Problems as individual files to me via DropBox (or email).
EE318 Week 2 Power Transfer Problem Set EE318 Week 1 Problem Set DUE BY
EE318 Week 2 Pre-requisites
1. List the types of power supplies, and what each type does (Wikipedia). Three phase power has more current at each terminal than single-phase, and is often used to supply commercial or industrial equipment.
The purpose of a generator is to generate a high voltage. These are the most common types of generators used to supply an electrical system with electricity: AC: alternating current. This is where electricity flows in one direction, rather than in reverse like DC (direct current).
Power generation using steam
EE318 Week 2 Duration
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EE318 Week 2 Learning Outcomes
Week 2 Learning Outcomes for EE318 – Electrical Circuits II (EE318) Week 2 Learning Outcomes for EE318 – Electrical Circuits II (EE318) Week 2 Learning Outcomes for EE318 – Electrical Circuits II (EE318) Week 2 Learning Outcomes for EE318 – Electrical Circuits II (EE318)
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EE318 Week 2 Assessment & Grading
Week 2 Assessment & Grading for EE318 – Electrical Circuits II (EE318) Flashcards | Quizlet Which of the following is not a potential source of energy? A. friction B. light C. kinetic energy D. chemical energy E. nuclear power Plant that uses this type of fuel is called as Hydroelectric power plant … Which of the following is not a potential source of energy? A. friction B. light C. kinetic energy D. chemical energy E. nuclear power Plant
EE318 Week 2 Suggested Resources/Books
Week 2: Electric Field and Potential Energy: Electric fields are described by potential energy. The potential is due to the difference in potential energy between two points, which can be calculated from the charge and distance between them. A line of points drawn from a point to any other location on a charged sphere will have a negative potential, while lines drawn from an electric field to any other location on the same sphere will have a positive potential. The following figure shows a schematic of an electric field with two points
EE318 Week 2 Assignment (20 Questions)
– EE318 Week 2 Assignment (20 Questions) for EE318 – Electrical Circuits II (EE318) from University of Phoenix. CIRCUIT: Electric Circuits II This module discusses capacitors and diodes and its applications in digital circuits. The online equivalent of a course to accompany the book “Circuit Analysis and Design,” by R. Com Please contact us at [email protected] Stephen Boulware, AP* CIRCUIT ANALYSIS AND DESIGN, Seventh Edition,
EE318 Week 2 Assignment Question (20 Questions)
at University of Phoenix. Learn more.
Download Free PDF. 11 Question Answers. Excel Worksheet (xls) File Page 1 of 1 EE318 Week 2 Assignment Question (20 Questions) for EE318 – Electrical Circuits II (EE318) at University of Phoenix.
Download Free PDF. 11 Question Answers. Excel Worksheet (xls) File Page 1 of 1
Detailed Explanation: This worksheet consists of 10 questions, with the first question being a baseline that includes definitions
EE318 Week 2 Discussion 1 (20 Questions)
Week 2 Discussion 1 (20 Questions) for EE318 – Electrical Circuits II (EE318) Click Here to Get Full Access Instantly.
Watch this video of a quick demo of the lecture slides. Review the video below and then read over the instructions below. Then, watch this short video on how to make an animated GIF file.
How would you design a circuit with a voltage regulator? How about incorporating a current source?
A power plant generates electricity by burning coal in boilers to produce
EE318 Week 2 DQ 1 (20 Questions)
for $6.99 at 2shared. Document EE318 Week 2 DQ 1 (20 Questions) is available in our book collection an online access to it is set as public so you can download it instantly.
EE318 Week 2 Discussion 2 (20 Questions)
at University of Texas – Austin.
This is a tutorial for EE318 Week 2 Discussion 2 (20 Questions) which consists of the following: · Information on how to post your initial post · The topic chosen · Introduce yourself and a brief explanation about yourself. If you have any questions about this tutorial, feel free to contact me at [email protected]
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EE318 Week 2 DQ 2 (20 Questions)
at Strayer University – Online. This package includes: 1. Today we are working on a fun project called “the game of life” and we want you to be part of it! You will use a PYNQ board, PICAXE 18F4550, and some components to create your own custom circuit board that can play the Game Of Life game from the beginning to the end. To be able to use all functions on the PICAXE 18F4550,
EE318 Week 2 Quiz (20 Questions)
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EE318 Week 2 Quiz (20 Questions) for EE318 – Electrical Circuits II (EE318)
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EE318 Week 2 MCQ’s (20 Multiple Choice Questions)
Course at University of Houston. These questions have been asked on EE318 – Electrical Circuits II (EE318) Course at University of Houston from 1st Semester till 2nd Semester.
Question 1
A Switch Operates At A Constant Current Of 5 mA. If The Switch Is Opened And Closed For A Period Of 3 Seconds, The Voltage Drop Across It Is
(a) 3 V
(b) 2 V
(c) 5 V
(d)
EE318 Week 3 Description
Readings
The Internet is a fabulous source of information. It is well known that many people take great interest in the history of technology and engineering. There is no question that the Internet, and its derivatives such as blogs and wikis, have become an integral part of our daily lives. Today, we use the Internet to read many newspapers and magazines. This allows us to view news stories related to engineering, politics, sports, etc., at any time of day or night. We also visit websites
EE318 Week 3 Outline
Submitted by: Kitten on 07/17/2012
Category: EE318: Circuits II
Downloads: 367
Tags: EE318 Week 3 Outline for EE318 – Electrical Circuits II (EE318) Power Factor Correction (PFC) – Part 1 (EE318) Submitted by: Kitten on 07/17/2012
Category: EE318: Circuits II
Downloads: 379
Tags: PFC – Part I Electric motors
EE318 Week 3 Objectives
Help your students grasp the concepts of power, energy and power transfer. All EE318 links below require a separate login. Power and Energy II Learning Objectives: Study the relationship between electromagnetic force and energy.
Electrical Circuits IV (EE418) Be sure to check out EE418 for more information on AC circuits that use transformers. EEP 318 Week 5 Review EEP 318 Week 5 DQ2 EEP 318 Week 5 DQ3 EEP 318 Week
EE318 Week 3 Pre-requisites
2.1: Electric Circuit Symbols and Notation
2.2: Phasors and Vector Diagrams
2.3: Kirchhoff’s Voltage Law
2.4: Kirchhoff’s Current Law
2.5: Kirchhoff’s Power Law
EE318 Week 3 Duration
Lecture 1-3, Homework #2 Due Date: 10/27/2014 Value: 7. 5% As with the previous problems, you can obtain the exact solution by using a calculator. You can also access this document at any time using the link below. Search and see the latest Electrical Engineering EE221 news and information. com The department of Electrical Engineering offers B. mBA Program: Choose from two Business Administration (B. References for EE301 – Introduction to Electric
EE318 Week 3 Learning Outcomes
Write a 700- to 1,050-word paper on the following topics: EE318 Week 3 Learning Outcomes for EE318 – Electrical Circuits II (EE318) Write a 700- to 1,050-word paper on the following topics: You must complete all of the learning outcomes for this course. Include at least two peer-reviewed references in your paper. This week you will begin to learn about Thevenin’s and Norton’s Theorems as they relate to electric
EE318 Week 3 Assessment & Grading
For more course tutorials visit www.uophelp.com EE318 Week 1 Individual Assignment Objective Analysis of Power Sources and Energy Harvesting (EE318) EE318 Week 1 Quiz (EE318) EE318 Week 2 Individual Assignment Electrical System Basics (EE318) EE318 Week 2 Quiz (EE318) EE318 Week 3 Assessment & Grading for EE318 – Electrical Circuits II (EE318) For more course tutorials visit www.uophelp.com Read the following article on
EE318 Week 3 Suggested Resources/Books
Lec 2: Electrical Circuits I Introduction to Electrical Engineering, Electrical Circuits: Technology and Applications, 5th Edition. Elsevier, ISBN 978-0-12-373007-3. From simple circuits to more complex networks of electronics these books will help you understand the principles behind electronic circuits. And because it’s integrated circuit, it is small and very affordable to mass produce. In this video we will learn about the IC, operational amplifier and transistors. The primary
EE318 Week 3 Assignment (20 Questions)
A.3) (MUSSAMMIR ISLAM UNIVERSITY) Question 2: The symbol for resistance is
STUDENT HANDBOOK METRO CENTER FOR ELECTRICAL ENGINEERING And under the supervision of “Mr. Raza” from Metropolis University and “Ms. Faryal” from Al-Karam University – Delhi. CONTENTS SECTION I : INTRODUCTION
INTERVIEW CAMPUS SUPERVISOR DATE 1.