Electric Fields - Non Calculus Method

Electric fields a non calculas based course to completely understand electric field concepts

What you'll learn

definition of columbs law of electrostatics and applications due to point charges

definition of electric filed streghth and applications due to point charges

definition of electric potential and its applications

gauss thereom and its applications and applying principles of electric fileds to solve uniform electric field problems and applications in capacitors

Requirements

basics mathermatics no calculus needed

Description

Electric Fields & Electrostatics – No Calculus NeededMaster the fundamentals of electric fields and electrostatics with this clear, concept-based course designed for high school and early college students. No calculus required—just a solid understanding of algebra and a curiosity for physics!You’ll explore electric forces using Coulomb’s Law, learn how to calculate electric fields and potentials due to point charges and systems of charges, and discover the connection between electric field strength and potential. You'll also dive into Gauss’s Law, simplified for symmetry-based applications, and understand capacitors, their function, and practical uses.We break down complex ideas using diagrams, worked examples, and real-world connections—so you not only solve problems, but truly understand what’s happening behind the equations.This course is perfect for:A/L or high school physics studentsFirst-year college students in algebra-based physicsAnyone looking to build strong conceptual understanding in electrostaticsBy the end of the course, you’ll be able to visualize electric fields, apply core principles to solve problems, and relate electrostatics and Gauss theorem ideas  to real-world technology and understand the beautiful connections of electromagnetic theory.No advanced math. Just clean explanations, structured progression, and step-by-step reasoning to build your confidence in physics ,all the very best!

Overview

Section 1: Introduction

Lecture 1 Introduction to electrostatics and coulombs law

Lecture 2 Lecture 1 Part 2

Section 2: Electric field lines,charge distribution and charging by induction

Lecture 3 Electric field lines,charge distribution and charging by induction

Section 3: Faradays ice pail experiment and application in uniform electric fields

Lecture 4 Faradays ice pail experiment and application in uniform electric fields

Section 4: Problem solving connected to lectuers 1,2,3

Lecture 5 Problem solving connected to lectuers 1,2,3 Part 1

Lecture 6 Problem solving connected to lectuers 1,2,3 Part 2

Section 5: Electric potential due to a point charge and the effect due to system of charges

Lecture 7 Electric potential due to a point charge and the effect due… Part 1

Lecture 8 Electric potential due to a point charge and the effect due… Part 2

Section 6: Relationship between electric field intensity and electric potential

Lecture 9 Lecture 6 Part 1

Lecture 10 Lecture 6 Part 2

Section 7: Electric Flux & gauss theorem

Lecture 11 Electric Flux & gauss theorem

Section 8: Application of gauss theorem Electric Field Stength due to point charges

Lecture 12 Application of gauss theorem Electric Field Stength due to point charges

Section 9: Application of gauss theorem for a uniformly charged objects

Lecture 13 Lecture 9

Section 10: Solving problems using Gauss theorem

Lecture 14 Gauss tute problem solving Part 1

Lecture 15 Gauss tute problem solving Part 2

Section 11: Capacitors and applications

Lecture 16 Capacitors part 1

Lecture 17 Capacitors part 2 and 3

Section 12: Problem Solving in Capacitors part 1

Lecture 18 Problem Solving Capacitory

Section 13: Problem Solving in capacitors part 2

Lecture 19 Problem Solving in capacitors

Section 14: Problem Solving in capacitors part 3

Lecture 20 Problem Solving in capacitors part 3

AP Physics,GCSE ,IGCSE,IB,IIT,JEE AND ALL ENTRANCE EXAM PHYSICS,anyone who wants to learn the fundermental concepts of electric fields