PHYS 3P35
: Electromagnetism I
Instructors: D.Crandles
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Lectures start from Thursday Sept. 5, 2024
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This course uses Brightspace
to accept your completed homework and lab reports. For up-to-date information, announcements,
and course materials, monitor the Brightspace page.
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To help you plan, the important dates of the current academic year are listed here.
What Brock calendar entry says:
Electric Field, divergence and curl of electrostatic field; relation between electric work and energy; conductors; applications of Laplace's and Poisson's equation in electrostatics; electrostatic fields in matter; field in polarized object and linear dielectrics.
Pre-requisites
- This course will make extensive use of vector calculus and partial differential equations.
You should have completed MATH 2P03,2P08 and 2P96 (or 3P06)
Times and Locations
- Lectures MR 14.30-16 WH311
Course Goals
- to gain experience with Vector Calculus
- to gain experience solving Maxwell's Equations for electrostatics using various analytical and computational techniques.
- to become familiar with the dielectric properties of materials
Textbook
David J. Griffiths, Introduction to Electrodynamics, 5th Ed., Pearson, 2024
Important Dates Sept.-Dec. 2024 (FW24D2)
- First day of classes: Sept. 5
- Reading Week: Oct. 14-18
- Deadline for withdrawal without academic penalty: Nov. 5
- Last day of classes: Dec. 4
- Snow/Reading Days: Dec. 5
- Exams
Component |
PHYS 3P35 |
Comments |
Mobius Quizzes |
15% |
Quizzes based on lectures/readings.
Links to quizzes are in Brightspace. For credit, answers must be submitted BEFORE class. |
Homework Assignments |
40% |
Approximately 1 per week submitted on Brightspace. Late assignments not accepted.
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Midterm Test |
15% |
During scheduled time slot Monday Oct 21. |
final exam |
30% |
You must obtain a grade of 40% or greater on the final exam in order to pass the course.
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This is an approximate list . As the course progresses, some of topics
may be removed and some others may get added.
- Vector Calculus Review - chapter 1
- Electrostatics - chapter 2
- Laplace's Equation: Special Techniques- chapter 3
- Electric Fields in Matter - chapter 4
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