Electromagnetics I (ENS 201)

2021 Spring
Faculty of Engineering and Natural Sciences
Engineering Sciences(ENS)
3
6.00 / 6.00 ECTS (for students admitted in the 2013-14 Academic Year or following years)
─░brahim Tekin tekin@sabanciuniv.edu,
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English
Undergraduate
NS101 MATH102
Formal lecture,Recitation
Interactive,Communicative
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CONTENT

Review of vectors and mathematical background. Static and magnetic fields and electromagnetic properties of materials. Faraday's Law with applications to electromechanical systems. Introduction to Maxwell's equations and electromagnetic waves. Also part of the "core course" pools for the EL, TE degree programs.

OBJECTIVE

This course is an introduction to electromagnetics for second year engineering students. Primary emphasis is on static electric and magnetic fields, Maxwell equations as well as time-harmonic electromagnetic fields.

LEARNING OUTCOME

Students will learn basic vector calculus operations such as dot product, cross product, gradient, divergence, curl. Learn stokes and divergence theorem.
Students will learn Maxwell's Equations and Electrostatics including, Charge and densities , Current and densities, Calculating electric field using Coulombs law, Gauss Law, Electric Scalar potential energy, Electrical boundary conditions, capacitance and resistance calculations
Students will learn Magnetostatics including; Biot's Savart's Law, Ampere's Law, Calculating magnetic field, Magnetic energy, Magnetic boundary conditions, inductance calculations

Students will learn Time varying Electromagnetic fields including Faraday's Law, Lenz's Law, Displacement Current, Electromotive force, transformer
Students will learn Time harmonic fields, traveling waves, wave propagation in lossless media

ASSESSMENT METHODS and CRITERIA

  Percentage (%)
Final 30
Midterm 50
Individual Project 10
Homework 10

RECOMENDED or REQUIRED READINGS

Textbook

F.T. Ulaby, Fundamentals of Applied Electromagnetics, Prentice-Hall

Readings

D.K. Cheng, Field and Wave Electromagnetics, 2nd Ed, Addison -Wesley
J.D. Kraus D.A. Fleisch, Electromagnetics with applications, 5th Ed, McGraw-Hill