Ace Electricity & Magnetism in 11 Hrs (The Complete Course)
Study of presence and relationship between charged particles, and phenomenon arise from the motion of electric charges
Updated on Jun, 2025
Language - English
Teaching and Academics ,Science,Physics
Lectures -114
Resources -42
Duration -10.5 hours
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Course Description
HOW THIS COURSE WORK:
This course, Ace Electricity & Magnetism in 11 Hrs (The Complete Course), includes all the important concepts you will need to know in your first E&M course, including video, notes from whiteboard during lectures, and practice problems (with solutions!). I also show every single step in examples and proofs. The course is organized into the following topics:
Electrostatic Force
Electric Field
Gauss's Law
Electric Potential
Capacitance and Dielectrics
Current and Resistance
Direct-current (DC) and Resistor-capacitor (RC) Circuits
Magnetic Field and Force
Faraday's Law
Electromagnetic Induction
CONTENT YOU WILL GET INSIDE EACH SECTION:
Videos: I start each topic by introducing and explaining the concept. I share all my solving-problem techniques using examples. I show a variety of math issue you may encounter in class and make sure you can solve any problem by yourself.
Notes: In each section, you will find my notes as downloadable resource that I wrote during lectures. So you can review the notes even when you don't have internet access (but I encourage you to take your own notes while taking the course!).
Assignments: After you watch me doing some examples, now it's your turn to solve the problems! Be honest and do the practice problems before you check the solutions! If you pass, great! If not, you can review the videos and notes again.
THINGS THAT ARE INCLUDED IN THE COURSE:
An instructor who truly cares about your success
Lifetime access to Ace Electricity & Magnetism in 11 Hrs (The Complete Course)
BONUS:
#1: Downloadable lectures so you can watch the videos whenever and wherever you are.
#2: Downloadable lecture notes so you can review the lectures without having a device to watch/listen.
#3: One problem set at the end of each section (with solutions!) for you to do more practice. There are 10 problem sets in total included.
#4: Step-by-step guide to help you solve problems.
See you inside the course!
- Gina :)
Goals
- Understand the forces between charged objects (Coulomb's Law)
- Identify the differences between insulators and conductors
- Understand how to polarize an insulator and a conductor
- Find the net electric field from point charges and charged bodies
- Study the motion of a charge in a uniform electric field
- Find the electric field using Gauss's Law and symmetry
- Understand the electric potential energy
- Find the electric potential from a charged body
- Understand the relationship between the electric field and the electric potential
- Understand the properties of conductors in electrostatic equilibrium
- Understand the properties of capacitors and dielectrics
- Understand the properties of resistance and Ohm's Law
- Understand and apply the Kirchhoff's Law (loop rule and junction rule)
- Solve circuit problems including capacitors, resistors, and inductors
- Solve DC, RC, LC, and LR circuit problems
- Find the magnetic field produced by a moving charge and a current-carrying wire
- Study the properties of a solenoid
- Find the magnetic force on a moving charge and a current-carrying wire
- Calculate the net torque on a closed loop due to magnetic field
- Calculate the net flux through a surface
- Apply Faraday's Law and Lenz's Law to find the induced EMF and current
Prerequisites
- Familiarity with Calculus 1 (limits and derivatives)
- Familiarity with Calculus 2 (integrals)
- Familiarity with Mechanics (kinematics and dynamics)
Curriculum
Check out the detailed breakdown of what’s inside the course
Introduction
3 Lectures
-
Overview
02:19
02:19
-
Welcome and How It Works
04:36
04:36
-
Tips to Maximize Your Learning
Electrostatic Force
9 Lectures
Electric Field
13 Lectures
Gauss’s Law
9 Lectures
Electric Potential
15 Lectures
Capacitance and Dielectrics
9 Lectures
Current and Resistance
6 Lectures
Direct-current (DC) and Resistor-capacitor (RC) Circuits
11 Lectures
Magnetic Field and Force
19 Lectures
Faraday’s Law
10 Lectures
Electromagnetic Induction
8 Lectures
Conclusion
2 Lectures
Instructor Details
Gina Chou
During my undergraduate years, I always looked forward to exams because I was well-prepared and found them rewarding. I know this isn’t the case for everyone, so I'm here to share my knowledge and help make your university journey a bit easier!
A bit about me:
I earned my BSc in Atmospheric Science and Physics, with a minor in Mathematics, from McGill University in 2018. I then completed my MSc in 2019 and my PhD in 2024, both in Physics at the University of Toronto. My research focuses on the impact of wind observations on global predictability, Arctic climate, and weather processes.
Since my second year of undergrad, I’ve gained extensive tutoring experience, working with students at Liberty Tutoring, supporting high school and university students through SUS Peer Tutoring and Saturday Programs, and working with private students both in person and online. I also served as a teaching assistant for math and physics courses at both the undergraduate and graduate levels from 2017 to 2024.
I look forward to seeing you in class!
Gina C.
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