Introduction to Electrostatics (Electric Force and Field)

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Gina Chou

3:22:02

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1. Introduction

1. Overview.html

2. Welcome and How It Works.html

3.1 E&M Formula Sheet.pdf

3. Tips to Maximize Your Learning.html

2. Electrostatic Force

1.1 Section 2 Electrostatic Force Notes.pdf

1.2 Section 2 Electrostatic Force.pdf

1. Downloadable Notes.html

2. Electric Charge.mp4

07:30

3. Insulators vs. Conductors.mp4

02:45

4. Charging a Conductor and Polarization by Induction.mp4

04:31

5. Coulombs Law.mp4

05:46

6. Example Coulombs Law.mp4

07:08

7. Superposition and Examples.mp4

16:22

8. Polarization by Induction Revisited.mp4

02:43

9. Electrostatic Force.html

3. Electric Field

1.1 Section 3 Electric Field Notes.pdf

1.2 Section 3 Electric Field.pdf

1. Downloadable Notes.html

2. Electric Field.mp4

07:27

3. Electric Field From a Point Charge.mp4

09:30

4. Superposition of Electric Fields.mp4

07:27

5. Electric Field Lines.mp4

08:25

6. Example Motion in a Uniform Field.mp4

13:57

7. E-Field For Charged Bodies.mp4

03:11

8. Charge Distribution Line.mp4

15:01

9. Charge Distribution Line (Part 2).mp4

13:01

10. Charge Distribution Line (Part 3).mp4

05:23

11. Charge Distribution Area.mp4

08:50

12. Charge Distribution Volume.mp4

01:56

13. Electric Field.html

4. Gausss Law

1.1 Section 4 Gausss Law Notes.pdf

1.2 Section 4 Gausss Law.pdf

1. Downloadable Notes.html

2. Electric Flux.mp4

12:14

3. Flux From a Point Charge.mp4

04:48

4. Gausss Law.mp4

02:46

5. Symmetry and Examples.mp4

27:10

6. Conductors in Electrostatic Equilibrium.mp4

05:50

7. Example Charge in a Spherical Shell.mp4

05:55

8. Faraday Cage.mp4

01:43

9. Gausss Law.html

5. Conclusion

1. Thank You & Good Luck & Next Step.mp4

00:43

Description

Study the relationship between stationary charged objects

What You'll Learn?

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

Who is this for?

This course is intended to introduce students to physics behind the electricity, including the electric force and electric field.

This course is for anyone who has completed Calculus I and II and Mechanics, and is interested in getting into the science field.

This course is for current Electricity & Magnetism students who are looking for extra help outside school.

This course could be for anyone who is not in the science stream but wants to study more advanced physics for fun.

What You Need to Know?

Familiar with Calculus 1 (limits and derivatives)

Familiar with Calculus 2 (integrals)

Familiar with Mechanics (kinematics and dynamics)

More details

Description
HOW THIS COURSE WORK:
This course, Introduction to Electrostatics (Electric Force and Field), includes the first three sections you will learn in Electricity & Magnetism, 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:
Electric charge
Insulators vs. Conductors
Coulomb's Law
Polarization
Electric field from point charges
Superposition of electric fields
Electric field for charged bodies
Electric flux
Gauss's Law (Symmetry)
Conductors in Electrostatic Equilibrium
Faraday Cage

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 Introduction to Electrostatics (Electric Force and FIeld)

HIGHLIGHTS:
#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.
#4: Step-by-step guide to help you solve problems.

See you inside the course!
- Gina :)
Who this course is for:
This course is intended to introduce students to physics behind the electricity, including the electric force and electric field.
This course is for anyone who has completed Calculus I and II and Mechanics, and is interested in getting into the science field.
This course is for current Electricity & Magnetism students who are looking for extra help outside school.
This course could be for anyone who is not in the science stream but wants to study more advanced physics for fun.

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While I was in undergrad, I was always excited to take exams because I was always well prepared and I felt accomplished after finishing each exam. I know that it is not the case for most of the students. So here, I will share my knowledge and help you to make your university life easier! :DMore about my backgroundI received my BSc in Atmospheric Science and Physics with a minor in Mathematics from the McGill University in 2018 and my MSc in Physics at the University of Toronto in 2019. I am currently a Ph.D. candidate in the Physics Department and I am interested in the impact of wind observation on the global predictability, Arctic climate, and weather processes.Since my second year of undergraduate studies, I have had extensive tutoring experiences, teaching at Liberty Tutoring, as well as high school and university students through SUS Peer Tutoring and Saturday Programs. Additionally, I have been/currently am a TA for math and physics undergraduate and graduate courses.I hope to see you in class!- Gina C.

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