field theory -course outline in hormuud university
TRANSCRIPT
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7/24/2019 Field Theory -Course Outline in Hormuud university
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UNIVERSITY OF HORMUUD
FACULTY OF ENGINEERING
COURSE OUTLINE
Department & Faculty: Electrical Engineering Page : 1 of 2
Course: Field Theory Semester: 5
Academic Session: 2015-2016
Prepared by:Name: Eng Burhan Omar Sheikh AhmedSignature:Date: 8/4/2013
Certified by: (Course Panel Head)Name:Signature:Date:
Lecturer : Engr Burhan Omar Sheikh Ahmed
Telephone No. : 0616699953
E-mail : [email protected]
Synopsis : This course introduces students to some major views and theories in the
area of electrostatic, magnetostatic and electromagnetic fields. This
elementary electromagnetic field theory is summarized in Maxwell'sequations for time varying fields in integral and differential forms, energy
storage, static, quasi-static fields and time domain analysis of wave
LEARNING OUTCOMES
By the end of the course, students should be able to:
No. Course Learning OutcomeAssessment
Methods1
Apply different analytical methods based on intergration and
Gauss law to derive the electric field intensity due to discrete
and continous charges. Students will be able to describe the
electric field distribution in these cases
T, F, HW,Pr
2 Describe capacitance of capacitors in different geometries and
circuit arrangements ( paralle plate, cylindrical, spherical,
series and parallel connection)
T,F, HW,Pr
3 Explain the electric potentioal and charge distribution in an
electrostatic system as well as their magnetostatic parameters.
T, F, HW,Pr
4
Gain a working knowledge of vector algebraic and calculus
operations through many of the topics above
T, F, HW, Pr
(TTest ; HWHomework ; PrPresentation; FFinalExam)
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7/24/2019 Field Theory -Course Outline in Hormuud university
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COURSE OUTLINE
Department & Faculty: Electrical Engineering Page : 2 of 2
Course: Field Theory Semester: 5
Academic Session: 2015-2016
TEACHINGMETHODOLOGY
Formal Lecture and Discussion,
Teaching Module,
Power Point presentation,
Individual assignments,
Presentations
TEACHING SCHEDULE
REFERENCES :
1. D.K Cheng, Fundamentals of Engineering Electromagnetics ( second edition), 1993
2. Matthew N.O. Sadiku, Elements of Electromagnetics ( 4th edition), 2007
3. Hayt, W.H. and Buck, J.A. 2001. Engineering Electromagnetics. 6th Edition. Mc
Graw