Electricity and Electric Circuit Simulation: Master Current Electricity and DC Circuits (with Thinkercad)

The difference between conductors and insulators

What current is and how to measure it

What a resistor is and how to find its value

What voltage is

What power is and how to calculate it

The difference between AC and DC circuits

Ohm's law with experiment

Series and parallel circuits with numerical examples

What nodes, meshes, and loops are

KVL and KCL rules

Mesh analysis

Supermesh analysis

Nodal analysis

Voltage and current divider rules

Thevenin's law

Norton's law

Students of electrical, electronics, instrumentation, biomedical, and robotic engineering

Anyone who is curious to learn more about electronics

Learn the fundamentals of current electricity and DC circuits in a clear and concise way

Master the use of Thinkercad to simulate circuits

Get a head start on your engineering studies or prepare for a career in electronics

In part 1 you will learn some basic concepts of current electricity like current, voltage, resistor, etc along with introduction to Thinkercad software.

In part 2 you will learn different techniques to solve complex circuits along with simulation of that circuits on the thinkercad software

Network Theory concepts (Mesh, super-mesh, Nodal analysis, Voltage and current divider techniques, Thevenin's and Norton's theorem)

Simulation of different circuits on Thinkercad software

You will learn to operate voltmeter, ammeter and multimeter

You will learn how to measure voltage and current of any circuit and resistance of any resistor

You will learn how to generate different ac signals like Sine wave, Square wave and Triangular wave

You will be able to convert any complex circuit into it's simple form

Courses Overview

Difference Between Conductors, Insulators and Semiconductors

What is a Current

What is a Resistor

What is a Voltage

What is a Power

Difference Between AC and DC Circuits

Thinkercad Software

Understanding Different AC Signal, DC Offset Voltage and Concept of Frequency

Understanding the Concept of Time and Frequency in Depth on Thinkercad Software

Introduction to Ohms Law

Experimental Analysis of Ohm's law (Experiment - 1)

Experimental Analysis of Ohms Law (Experiment - 2)

Ohms Law Conclusion

Introduction to Series and Parallel Circuits

Basic Numerical on Deries and Parallel Circuits

Numerical on the Combination of Series Parallel Circuits

Complex Numerical on Series Parallel Circuit

Concept of Nodes, Meshes and Loops

Introduction to Kirchoff's Voltage Law

Introduction to Kirchoff's Current Law

Basic Numericals on KVL and KCL

Understanding Mesh Analysis

Solving Circuit with Two Meshes in a Loop Using Mesh Analysis

Simulation of the Above Circuit

Solving Circuit with Three Meshes in a Loop Using Mesh Analysis

Simulation of the Above Circuit

Shortcut Trick to Solve Mesh Analysis

Basics of Supermesh

Example of Supermesh

Supermesh Numerical

Understanding Definition and Basic Concept of Nodal Analysis

Nodal Analysis Example

Numerical on Nodal Analysis

Simulation of Nodal Analysis Circuit (Part-1)

Simulation of Nodal Analysis (Part -2)

Introduction to Voltage Divider Technique

Numerical on Voltage Divider Technique

Example of Voltage Divider Technique

Introduction to Current Divider Technique

Numerical on Current Divider Rule

Introduction to Thevenin's Theorem

Numerical on Thevenin's Theorem

Introduction to Norton's Therom

Numerical on Norton's Theorem

Those who are curious to learn arduino

Those who are curious to learn electronics

Those who are curious to learn electric circuits

Those who are curious to learn simulation software

Anyone opting for electrical or electronics engineering