Intermediate Electromagnetism 2008

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Contents 1 Course Information 2 Course Links 3 Course Material 4 Homework Assignments: 5 Problem solving strategies: 5.1 Homework Solutions 5.2 Exam Solutions 5.3 Lectures 6 Course Downloads 7 Previous years exams

[edit] Course Information

Professor: Dr. Frank Kowalski

Office: Meyer 439

[edit] Course Links

Forum for Intermediate Electromagnetism

Kowalski InkSurvey site

[edit] Course Material

[edit] Homework Assignments:

These downloads require Adobe Acrobat Reader Homework 2: due in class 28 Jan Homework 3: due in class 04 Feb Homework 4: due in class 10 Feb Homework 5: due in class 25 Feb Homework 6: due in class 03 March All problems (beyond assign 6) will be graded with 5 points given for using the problem solving strategy and 5 points for completing the strategy to get the correct result. Homework 7: due in class 24 March Homework 8: due in class April 2 just before the exam Homework 9: due in class April 14 Homework 10: due in class April 21

[edit] Problem solving strategies:

These downloads require Adobe Acrobat Reader Strategy outline example problems

[edit] Homework Solutions

These downloads require Adobe Acrobat Reader graded solutions Ch4 and Ch1 graded solutions Ch5 and Ch7 graded solutions Ch7

[edit] Exam Solutions

Video solutions to exam I are located on the scratch directory voodoo,

These downloads require Adobe Acrobat Reader solutions to exam II solutions to exam III solutions to final page 1 solutions to final page 2 solutions to final page 3

[edit] Lectures

These downloads require Adobe Acrobat Reader Lecture 4:work done in assembling charge distributions Lecture 5:continuation of work done in assembling charge distributions Lecture 6:homework issues and begining of caps Lecture 7: energy of caps and overview of chapter 3 Lecture 8:Laplace's eqn, method of images, and beginning sep. variables Lecture 9: Cartesian coord. example sep variable Lecture 10: Relaxation soln and intro to spherical coord soln Laplaces eqn Lecture 11: more spherical coord Laplaces eqn Lecture 12: vector calculus in thermo Lecture 13: exam review and more laplace's eqn spherical coords Lecture 14: overview of dielectrics and multipole moments Lecture 15: V from a dipole and calculation of p Lecture 16: derivation of V from polarized object Lecture 17: example of polarized sphere Lecture 18: forces on dipoles and D Lecture 19: Linear dielectrics Lecture 20: Example calculating D, boundary conditions, review for exam II Lecture 21: overview of polarization and intro to problem solving strategies and ch 5 Lecture 22: Why E total is used in P and force on a spinning circular charge ring Lecture 23: dipole moment, K, and J calculations Lecture 24: Diff. form of charge conservation, force on wire example, and Biot and Savart Lecture 25: ampere's law and vector potential Lecture 26: more vector potential and examples from ch 5 Lecture 27: Ohm's law Lecture 28: Faraday's law Lecture 29: Faraday's law II and exam III review Lecture 30: Faraday's law Lecture 31: Faraday's law, review Gauss's, Ohm's laws Lecture 32: Inductance and angular mom increase due to Faraday's law Lecture 33: Displacement current Lecture 34: Intro to magnetic materials Lecture 35: Magnetic materials definition of H and example of using it to calculate B Lecture 36: Magnetic materials and relativity problem Lecture 37: Magnetic materials and voltage diff equator and north pole spinning sphere Lecture 38: Magnetic and electric dipole moments determined from macroscopic properties Lecture 39: Ferromagnetism and demos

[edit] Course Downloads

These downloads require Adobe Acrobat Reader Course Syllabus Unit Vectors part1 Unit Vectors part2 Unit Vectors advanced

[edit] Previous years exams

These downloads require Adobe Acrobat Reader midterm06 version I midterm06 version II