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Welcome To my own course "Fundamentals of Electrical Engineering Circuits" ,
This course is designed for Absolute Beginners who has Zero Knowledge about Electric Circuits , i start from Zero until you understand all the Fundamentals with Hundreds of Examples !!
This also for Students who wants to Refresh their Knowledge !
So what are we going to learn from this course ?
know all the Fundamentals of Electric DC Circuits
know the meaning of SI units or International Units
Know the Definition of the Electric Charge
Know the Definition of the Electric Current
Know the Definition of the Electric Voltage
Know the Definition of the Electric Power
Know the Definition of the Electric Energy
Know the 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
Know the 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
Know the Definition of the Nodes, Branches and loops in Electric circuit
Know the Definition of the Kirchhoff's laws
Know the Definition of Kirchhoff Current Law
Know the Definition of Kirchhoff Voltage Law
Know Series resistor and voltage division
Know parallel resistor and current division
Know 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 Mesh analysis and Nodal Analysis by Inspection
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.
Wish you happy learning and see you in my course :)
Overview
Syllabus
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- Electric Circuits Promo
- Electric Circuit, System of Units, Charge, and Current
- Solved Examples 1
- Voltage, Energy, and Power
- Solved Examples 2
- Dependent and Independent Sources with a Solved Example
- Applications on Basic Concepts and Solved Examples
- Resistance, Conductance, and Ohm's Law
- Solved Examples 1
- Branch, Nodes, Loops, Series and Parallel Connection
- Kirchhoff's Laws KVL and KCL
- Solved Examples 2
- Voltage Division, Current Division, Analogy between Resistance and Conductance
- Solved Examples 3
- Delta Wye and Wye Delta Transformations
- Solved Examples 4
- Application on Basic Laws with a Solved Example
- Methods of Analysis and Nodal Analysis with No Voltage Source
- Example 1
- Cramer's Method
- Nodal Analysis with Voltage Source
- Example 2
- Example 3
- Mesh Analysis
- Example 4
- Example 5
- Mesh Analysis with Current Source
- Example 6
- Nodal Vs Mesh Analysis
- Application DC Transistor
- Example 7
- Introduction to Circuit Theorems and Linearity of a Circuit
- Superposition Theorem
- Example 2
- Source Transformation
- Example 3
- Thevenin Theorem
- Example 4
- Example 5
- Norton's Theorem
- Example 6
- Maximum Power Transfer with a Solved Example
- Resistance Measurement with Solved Examples
- Summary
- Operational Amplifiers
- Non Ideal Operational Amplifier
- Example 1
- Ideal Operational Amplifier
- Inverting Amplifier
- Non Inverting Amplifier
- Summing Amplifier
- Difference Amplifier
- Capacitor and Capacitance
- Equations of Capacitor
- Solved Examples on Capacitor
- Series and Parallel Combination of Capacitors
- Inductors and Inductance
- Equations of Inductor
- Solved Example on Inductor
- Series and Parallel Combination of Inductors
- Application Integrator
- Application Differentiator
- Summary
- Simulation of Charging and Discharging Capacitor Using Matlab
