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# EI1260 Electromagnetic Theory, Introductory Course 6.0 credits

The course gives the relation between electromagnetic fields, charges and currents.

Course offering missing for current semester as well as for previous and coming semesters
Headings with content from the Course syllabus EI1260 (Autumn 2011–) are denoted with an asterisk ( )

## Content and learning outcomes

### Course contents

Electrostatics: Coulomb's law. Electric lines of force. Evaluation of electric field and potential in vacuum and with conducting and dielectric materials. Energy and forces in electrostatic systems. Static magnetic fields: Biot-Savart's and Ampere's laws. Fields in magnetic materials.Electromagnetic induction. Mutual and self-induction. Energy and forces in static and quasi-stationary fields. Maxwell's equations. Plane waves. Wavesguides.

### Intended learning outcomes

General goals

After the course the student shall from a description of a situation that leads to an electromagnetic field problems be able to

• use their conceptual understanding of the electromagnetic laws in order to qualitatively describe the behavior of the solution to the problem
• use their ability to manage the electromagnetic laws to, in simple situations, set up a computational model and perform the necessary calculations: select appropriate methods; make appropriate approximations; plausibility assess the results

Concrete goals

1. define electric and magnetic fields according to their force effect
2. explain the physical meanings of the differential equations for electrostatic and magnetostatic fields
3. calculate the electric field from the stationary charge distributions and magnetic fields from steady current distributions
4. describe and use simple models of electric and magnetic field interactions with materials
5. explain the concept of electromotive force
6. write down Maxwell's equations and explain their physical meanings
7. analyze how energy is stored and transported in an electromagnetic field
8. analyze the propagation, reflection and transmission of plane waves
9. analyze propagation in simple types of waveguides

### Course disposition

Lectures and tutorial exercises.

## Literature and preparations

### Specific prerequisites

Corresponding to the courses for the master of science program in Engineering and Education in

• Linear algebra
• Differential and integral calculus, in one and several variables
• Complex analysis
• Electrical circuit analysis
• Vector analysis

### Recommended prerequisites

Basic courses in mathematics including vector analysis.

### Equipment

No information inserted

### Literature

D. J. Griffiths: Introduction to Electrodynamics, 3:rd ed. (Prentice Hall).

## Examination and completion

If the course is discontinued, students may request to be examined during the following two academic years.

P, F

### Examination

• INL1 - Assignments, 6,0 hp, betygsskala: P, F

Based on recommendation from KTH’s coordinator for disabilities, the examiner will decide how to adapt an examination for students with documented disability.

The examiner may apply another examination format when re-examining individual students.

### Other requirements for final grade

Approved hand in exercises.

### Opportunity to complete the requirements via supplementary examination

No information inserted

### Opportunity to raise an approved grade via renewed examination

No information inserted

### Ethical approach

• All members of a group are responsible for the group's work.
• In any assessment, every student shall honestly disclose any help received and sources used.
• In an oral assessment, every student shall be able to present and answer questions about the entire assignment and solution.

## Further information

### Course web

Further information about the course can be found on the Course web at the link below. Information on the Course web will later be moved to this site.

Course web EI1260

### Offered by

EES/Electromagnetic Engineering

### Main field of study

Electrical Engineering, Technology

First cycle

### Add-on studies

EI1240 Electromagnetic Theory.

Martin Norgren