What Will I Get ?

• Basic concepts of electricity as electric charge, current, voltage and more
• Basic elements and their equivalent circuits such as resistance, inductance and capacitor.
• Basic laws as KCL, KVL, Ohm's law and Delta-Wye transformations.
• Methods of analysis as nodal and mesh analysis.
• Circuit theorems as Norton, Thevenin, source transformation and maximum power transfer.
• Different operational amplifiers as inverting, non inverting, summing, etc.

Requirements

• Internet Connection Only
• Desire for Knowledge

Description

Welcome To Our Course "Complete Electric Circuits Course For Electrical Engineering" 

This course is designed for absolute beginners who have zero knowledge about electric circuits, I start from zero until you understand all the fundamentals with hundreds of examples !!

What are we going to learn from this course?

✔️ Fundamentals of electric DC circuits

✔️ SI units or international Units

✔️ Definition of the electric charge

✔️ Definition of the electric current

✔️ Definition of the electric voltage

✔️ Definition of the electric power

✔️ Definition of the electric energy

✔️ Difference between dependent and independent sources

✔️ Applications of DC Circuits

✔️ Know the principle of TV picture tube or CRT

✔️ Know about the electricity bills calculations

✔️ Basic laws of Electricity

✔️ Understand Ohm's law

✔️ Difference between an Open Circuit and Short Circuit

✔️ Difference between Fixed and Variable Resistance

✔️ Definition of Conductance

✔️ Know difference between series and parallel connection

✔️ Definition of the Nodes, Branches and loops in Electric circuit

✔️ Definition of the Kirchhoff's laws

✔️ Definition of Kirchhoff current law

✔️ Definition of Kirchhoff voltage law

✔️ Series resistor and voltage division

✔️ Know parallel resistor and current division

✔️ Wye-Delta transformations and vice-versa

✔️ Understand Applications as Lightning Systems

✔️ Understand Nodal analysis no voltage source

✔️ Understand Nodal analysis with voltage sources

✔️ Understand the supernode

✔️ Understand Mesh analysis no current Source

✔️ Understand Mesh analysis with current Sources

✔️ Understand the supermesh.

✔️ Compare between Nodal and Mesh analysis

✔️ Understand applications as DC transistor circuits

✔️ Understand the meaning of the linearity property

✔️ Use the Superposition theorem

✔️ Understand Thevenin's theorem

✔️ Understand Norton's theorem

✔️ Maximum power transfer

✔️ Understand the source transformation

✔️ Understand application as resistance measurement

✔️ Understand the various types of operational amplifiers

✔️ Understand ideal op amp, inverting amplifier , non inverting amplifier

✔️ Understand summing op amp circuit

✔️ Understand difference op amp circuit

✔️ Understand cascaded op amp circuit

✔️ Know the applications of op amp like Digital-to-Analog converter

✔️ Know the applications of op amp like instrumentation amplifiers

✔️ Know what is a capacitor

✔️ Understand how to simplify series capacitors

✔️ Understand how to simplify parallel capacitors

✔️ Know what is an inductor

✔️ Understand practical capacitors and practical inductors

✔️ Understand how to simplify series inductors

✔️ Understand how to simplify parallel inductors

✔️ Know how to get energy stored in capacitor

✔️ Know how to get energy stored in inductor

✔️ know the applications of capacitors and inductor as integrator

✔️ know the applications of capacitors and inductor as differentiator.