Dr. Yazeed Qasaymeh
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Majmaah University College of Engineering Department of Electrical Engineering Course Syllabus Instructor Name Course Title: Prerequisite: Academic Year: Lecture Times: Office Hours Dr. Yazeed Qasaymeh Electromagnetics II EE 206 Co-requisite: None EE 234 Cr.Hrs: 3(3,1,0) Course code: Wednesday 10:00-10:50 Tutorial Time: 2015/2016 Semester: Sunday 1:00-2:50 and Thursday 10:00-10:50 Sunday Tuesday 11:00-12:00 11:00-12:00 1st Wednesday 11:00-12:00 Lab Time: Office number Course Objectives This course aims to achieve the following objectives 1 2 3 1 2 3 4 5 6 To understand basic concepts of wave propagation To Understand and apply mathematical concepts of vector analysis to the time dependent solution of electromagnetic engineering. To Apply higher level mathematics in the solution of engineering problems making use of Maxwell's equations in applications involving reflection, transmission, and oblique incidence of plane waves, transmission lines, waveguides, and boundary value problems in electromagnetics. Learning Outcomes Course Learning Outcomes List Maxwell’s equations and solve them for specific regular geometries Understand general electromagnetic wave propagation and how the plane wave solution can be used to approximate real situations. Interpret the dielectric and magnetic properties of given materials Describe the boundary conditions for electric and magnetic fields at dielectric interfaces Analyze the use of rectangular waveguide to guide electromagnetic waves. Understand different antenna parameters and analyze short dipole antenna. ABET Student Outcomes EE4,EE1,a EE4, e,EE1,a EE4,EE1,a EE4,e,EE1,a EE4,EE1,a EE4,EE1.a Assessed ABET Learning Outcome: EE1 Assessment 1 2 3 4 5 Assessment Method First exam Second exam Quizzes homeworks and assignments Final Exam Total N 1 2 3 4 5 Short Description Maxwell’s Equations and Waves Plane waves Transmission Lines Waveguides Antennas; Date (Week) Mark 20 20 10 10 40 100 Course Contents Textbook: References: Week 3 3 3 3 3 Books Sadiku, Matthew N. O. Elements of Electromagnetics. New York: Oxford University Press, 2001. ULABY, F. T., MICHIELSSEN, E., & RAVAIOLI, U. (2010). Fundamentals of applied electromagnetics. Upper Saddle River [etc.], Prentice Hall/Pearson.
