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Viewing: ECE 3315 : Fields and Waves I

Last approved: Fri, 12 May 2017 08:02:31 GMT

Last edit: Tue, 02 May 2017 16:54:33 GMT

Other Courses referencing this course
School of Engineering and Applied Sciences
Electrical and Computer Engineering (ECE)
ECE
3315
Fields and Waves I
Fields and Waves I
Fall 2017
3
Course Type
Lecture
Default Grading Method
Letter Grade

No
No
APSC 2113; and PHYS 1022 or PHYS 1026
Corequisites

60

Frequency of Offering
Every Year
Term(s) Offered
Fall
Are there Course Equivalents?
No
 
No
Fee Type


No


Complex phasor notation, uniform transmission lines, standing wave ratio, power, reflection coefficient, impedance matching; review of vector analysis and numerical methods; electrostatics, generalizations of Coulomb’s law, Gauss’s law, potential, conductors, dielectrics, capacitance, energy; Magnetostatics, Biot-Savart Law, Maxwell’s equations, vector magnetic potential, inductance, magnetic energy, boundary conditions.
At the end of the course, the student will be able to,
1. Utilize vector analysis and complex phasor notation to describe fundamental relations
governing electric and magnetic fields in three dimensions in their differential and integral
forms
2. Evaluate the electrostatic field, force and potential due to electric charges and charge
distributions. Understand the dipole (Coulomb) model of dielectric materials
3. Calculate capacitance, resistance, inductance and stored energies in simple geometries
4. Evaluate properties of sinusoidally time varying voltages and currents on uniform transmission lines
5. Evaluate magnetostatic field and vector potential due to steady currents
Uploaded a Course Syllabus

Course Attribute


Key: 2405