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EEM 214 - Electrical Engineering for Mechanical Engineers

Instructor:

Asst.Prof.Mehmet FİDAN

Teaching Assistants:

Course Book:

Basic Engineering Circuit Analysis/ J. David Irwin, Robert M. Nelms. Edition:10th ed., Publisher: John Wiley & Sons, 2010. (1-7. Week)

Grading:

First Midterm: 30 %, Second Midterm 30 %, Final: 40%

Other Resources:

Electrical Machinary A Fitzgerald, Arthur Eugene Fitzgerald, Charles Kingsley, Stephen Umans McGraw-Hill Companies,Incorporated, Jul 25, 2002 - Technology & Engineering (8-12. Week)

Course Outline:

1. Week

Introduction to Direct Current(DC) Circuits

Resistance, Current, Voltage and Power Concepts

Voltage Source and Current Source

eem214_week1.pdf

2. Week

Node, Mesh, Loop, Branch Concepts

Kirchhoff’s Voltage Law

Kirchhoff’s Current Law

Voltage Divider Rule

Current Divider Rule

current_voltage_dividers.pdf

eem214_week2.pdf

3. Week

Mesh Analysis

Nodal Analysis

Superposition

eem214_week3.pdf

4. Week

Thevenin-Norton Methods

Source Transformation Method

Maximum Power Transfer

eem214_week4.pdf

5. Week

Alternative Current(AC) Circuits

Period, Frequency Concepts

Peak, Peak-to-Peak, RMS Value Concepts

Phase, Phase Difference

eem214_week5.pdf

6. Week

Capacitor, Inductor

RL and RC Circuits,

eem214_week6.pdf

7. Week

Electrical Anologies of Mechanical Systems

eem214_week7.pdf

8. Week

Phasor Concept

Phasor Diagrams of RL and RC Circuits

eem214_week8.pdf

9. Week

Effective(RMS) Values

Complex Power

Apparent Power

Average Power

Reactive Power

Power Factor

Power Compensation

eem214_week9.pdf

10. Week

Magnetic Circuits

Magnetic Flux

Fringing Effect and Leakage Flux

Histeresis and Eddy Current Losses

eem214_week10.pdf

11. Week

Transformers

eem214_week11.pdf