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| EE 224 Electromagnetic Theory
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Course Details
- Supplementary problems are present in METU-ONLINE web site... (15.10.2006)
- Exercise questions for chapter I are present in METU-ONLINE web site... (19.10.2006)
- Midterm questions of the previous year are present in METU-ONLINE web site... (19.10.2006)
- You can check your quiz grades ... (20.10.2006)
- Supplementary questions Set 4 is available in METU ONLINE (2.11.2006)
- There is a tendency to delay the SECOND Midterm one day; 15th of DECEMBER (FRIDAY) instead of 14th of DECEMBER (THURSDAY).If this is a problem for any of the registered students, please let me know.
- There is another exam on 15/12/2006, therefore, SECOND Midterm will be on 14th of DECEMBER (THURSDAY) as announced before (10.11.2006).
- Supplementary V and VI are placed in METU ONLINE (14.11.2006)
- Midterm I results are announced (19.11.2006)
- Exercise questions (Questions 5) and solved problems are present in METU-ONLINE (7.12.2006)
- Solutions of 2nd Midterm questions are placed in METU-ONLINE (27.12.2006)
- Supplementary questions for the final examination will be given in the weekend
- Check the total countof your attendance and see me before 12th of January if you have objections. Attendance is checked 28 times through out the semester.
- Supplementary questions for the final examination are present in METU-ONLINE
- Midterm 2 results are here !
- You can see your midterm papers on 8th of January (Monday) at D-303 between 12:00 and 12:30 . You may also have a chance to see your midterm paper together with the final exam papers.
- FINAL EXAM results are here !(11.1.2007)
- You can see your Final exam papers next week on Tuesday (16/1/07) between 12:00 and 12:30 at D 303.
- Vector Analysis (Ch.2 / Ch.2)
- Vector Algebra
- Addition, Subtraction
- Multiplication (Dot Product, Cross Product, Product of Three Vectors)
- Orthogonal Coordinate Systems
- Cartesian Coordinates
- Cylindrical Coordinates
- Spherical Coordinates
- Vector Calculus
- Vector and Scalar Fields
- Gradient of a Scalar Field
- Line Integral, Surface Integral, Volume Integral
- Divergence of a Vector Field
- Curl of a Vector Field
- Divergence Theorem
- Stoke’s Theorem
- Null Identities
- Helmholtz Theorem
- Vector Algebra
- Static Electric Fields (Ch.3 / Ch.3 and Ch.4)
- Coulomb's Law
- Definition of the electric field
- Electric field due to a system of discrete charges
- Electric field due to a continuous distribution of charge
- Gauss' Law in free space and its applications
- Electrostatic Potential
- Material media in static electric field
- Conductors in static electric field
- Dielectrics in static electric field
- Polarization vector, polarization charge densities
- Electric flux density, generalized form of Gauss’ Law
- Electric succeptibility, permittivity
- Boundary conditions for electrostatic field
- Capacitances and capacitors
- Poisson’s and Laplace’s Equations, 1D solutions
- Electrostatic energy and forces
- Method of Images
- Coulomb's Law
- Steady Electric Currents (Ch.4 / Ch.5)
- Equation of continuity and Kirchoff’s current law
- Current density and types of current
- Power dissipation and Joule’s Law
- Resistance calculations
- Static Magnetic Fields (Ch.5 / Ch.6)
- Ampere’s force law
- Definition of field
- The Biot-Savart Law and applications
- Vector Magnetic Potential
- Ampere’s Circuital Law and applications
- Solenoidal property of field and flux conservation
- The magnetic dipole
- Magnetization and equivalent current densities
- Magnetic field intensity and generalized Ampere’s Circuital Law
- Behavior of magnetic materials
- Boundary conditions for magnetostatic fields
- Inductances and inductors
- Magnetic energy
- Magnetic force
- Time Varying Fields (Ch.6 / Ch.7)
- Faraday’s law of electromagnetic induction
- Lenz’ law
- Motional and Transformer EMF’s
- A moving conductor in a magnetic field
- A stationary circuit in a time varying magnetic field
- A moving circuit in a time-varying magnetic field
- Faraday’s law of electromagnetic induction
28.12.2006
Web material for EE 224
All grades
| Midterm I | November 10, 2006 at 17:30 | |||
| Midterm II | December 14, 2006 at 17:30 | |||
| Final Exam | January 9, 2007 at 13:30 (EA 201, EA 202) | |||
| Make-up Exam | January 24, 2007 at 14:00 (EA 201) | |||
| Assistants | Hayrettin Yüzer D-305 | Office Hours for H. Yüzer | Tuesday 11:10-11:40 and 13:30-14:00 | |
| Öznur Türkmen D-223 | Office Hours for Ö. Türkmen | Thursday 13:10-13:40 and 15:30-16:00 | ||
| Instructor: | Simsek Demir(D-303) | |||
| Office Hours | Tuesday | 10:30-11:00 | ||
| Friday | 13:30-14:00 |
| comments to :simsek@metu.edu.tr | Last Updated: 20 October 2006 |
Course Code: 5670224 (EE224)
Course Name: Electromagnetic Theory
Catalog Description: Review of vector analysis. Electrostatic fields in vacuum and material bodies. Dielectric properties of materials. Electrostatic energy and forces. Steady electric current and conductors. Static magnetic fields in vacuum and in materials. Magnetic energy and forces. Quasistatic fields and electromagnetic induction.
Credit: (4-0)
Proposed Semester: Spring
Text Book:
- Fundamentals of Engineering Electromagnetics, David K. Cheng, Addison - Wesley.
- Field and Wave Electromagnetics, David K. Cheng, Addison - Wesley
- Introductory Engineering Electromagnetics, Z. D. Popovic, B. D. Popovic, Prentice Hall.
- Engineering Electromagnetics, U.S. Inan, A.S. Inan, Addison-Wesley.
- Principles and Applications of Electromagnetic Fields, R. Plonsey and R. Collin, McGraw-Hill.
- Electromagnetic Fields and Waves, P. Lorrain and D. Corson, Freeman.
- Electromagnetics, J. D. Kraus, McGraw-Hill.
- Elements of Engineering Electromagnetics, N.N. Rao, Prentice Hall
- Vector Analysis, Schaum`s outline series.
- The Feynman Lectures on Physics, R. Feynman, Addison-Wesley.