Ultimate Electrical Power System Analysis Course
Master Power System Fault Analysis and Load Flow Studies in Electrical Power Engineering
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⚡ Ultimate Power System Analysis Course for Electrical Engineers ⚡
🎯 From Per Unit Basics to Fault & Stability Mastery — All in One Place!
🚨 Tired of courses that only scratch the surface of power systems?
📉 Struggling with Per Unit (PU), Load Flow, Faults, and Stability in your university or job?
💡 Want to understand how power systems behave and how to analyze them confidently?
✅ You're in the right place!
🎓 What You’ll Learn – Packed with Over 80 Hands-On Lessons & Real-World Examples!
🔷 Per Unit System — Simplify the Complexity!
✔️ Understand the why behind the PU system and how it simplifies everything
✔️ Apply PU to single-phase and three-phase systems
✔️ Handle transformers, base conversions, and real-world examples
✔️ Fully solved examples step-by-step
🔷 Load Flow Analysis — Power System Backbone!
✔️ Learn bus classification, Ybus derivation, and power flow equations
✔️ Master Gauss-Seidel & Newton-Raphson methods
✔️ Understand the Jacobian matrix
🔷 Power System Graph Theory & Network Matrices
✔️ Learn to build power system graphs: oriented, trees, co-trees 🌲
✔️ Understand incidence and primitive matrices, and how they form Ybus
⚡ Symmetrical Faults:
✔️ Understand machine reactance, Thevenin equivalent, and full fault steps
✔️ Multiple fault calculation examples
⚡ Unsymmetrical Faults:
✔️ Convert unbalanced systems into symmetrical components
✔️ Draw accurate +ve, -ve, and 0-sequence reactance diagrams
✔️ Fully solved step-by-step numerical examples (with diagrams!)
💥 Why This Course Rocks:
📘 Downloadable slides for revision
🎓 Perfect for university students, M.Sc. candidates, researchers & practicing professionals
🧠 Build not just knowledge — build intuition
🎉 By the End of This Course, You'll Be Able To:
✅ Solve complex load flow problems using GS & NR methods
✅ Analyze any fault type like a professional
✅ Visualize how real power systems behave under faults or instability
✅ Pass your university exams or interview questions with full confidence
🔥 No more boring theory. No more unanswered questions. Just clarity, practice, and power system mastery!
🌐 Multilingual Subtitles Available
English, Arabic (العربية), Hindi (हिन्दी), German (Deutsch), French (Français), and Spanish (Español)
🎯 Enroll Now and Join Thousands of Engineers Who've Transformed Their Careers!
Get started now!
Course Curriculum
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StartImportance of the Per Unit (PU) System (10:03)
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StartPer Unit (PU) System (19:16)
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StartPU System for Single-Phase and Three-Phase Systems (7:33)
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StartEffect of Transformers on PU System (3:23)
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StartChanging the Base of PU System (8:51)
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StartExample 1 (12:37)
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StartExample 2 (16:10)
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StartExample 3 (11:10)
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StartExample 4 (6:42)
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StartExample 5 (11:13)
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StartCourse PDF Slides
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StartIntroduction to Load Flow Analysis (9:35)
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StartTypes of Buses (6:47)
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StartAdmittance Matrix (6:23)
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StartDerivation of Ybus Admittance Matrix (15:35)
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StartExample 1 (5:15)
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StartExample 2 (5:50)
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StartPower Flow Equation (9:50)
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StartApproximate Solution for Load Flow Analysis (10:58)
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StartExample 3 (12:07)
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StartGauss-Seidel Method (10:45)
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StartUnderstanding Gauss-Seidel Method (3:44)
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StartExample 4 (19:46)
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StartExample 5 (29:55)
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StartBasics of Newton-Raphson Method (9:23)
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StartTaylor Expansion (14:41)
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StartNewton-Raphson Method In Load Flow Analysis (12:23)
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StartJacobian Matrix Elements (12:14)
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StartExample 6 (11:49)
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StartExample 7 (9:47)
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StartEffect of Voltage and Angle on P and Q (7:44)
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StartIntroduction to Power System Matrices (0:50)
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StartCourse Slides
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StartNetwork Connection Matrices (7:08)
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StartExample 1 (13:57)
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StartGraph Theory (4:38)
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StartGraph Formation (9:50)
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StartOriented Graph Formation (3:23)
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StartTree Formation in A Graph (7:37)
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StartCo-Tree Formation in A Graph (3:56)
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StartElement-Node Incidence Matrix (11:33)
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StartBus Incidence Matrix (1:27)
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StartPrimitive Network Matrices (12:55)
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StartExample 2 (12:01)
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StartYbus Using Primitive Admittance Matrix (18:13)
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StartYbus Calculation (3:19)
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StartExample 3 (13:30)
You will also be rewarded with a certificate of completion after completing the course
Your Instructor
Khadija Academy was founded by engineer Ahmed Mahdy who is an electrical power engineer and researcher. He is also an electrical bestselling instructor teaching electrical engineering and has helped more than 90,000 students from 198 countries achieve career success with simple and easy courses in the last 9 years.
He also received the award for the best master's thesis in the Faculty of Engineering - Ain Shams University for 2022/2023 for his extraordinary research in the wave energy field.
Some of his published research works in the top electrical engineering journals worldwide:
1-
Transient stability improvement of wave energy conversion systems
connected to the power grid using anti-windup-coot optimization strategy
- Energy Journal - Impact Factor of 9.0.
https://www.sciencedirect.com/science/article/abs/...
2-
Nonlinear Modeling and Real-Time Simulation of a Grid-Connected AWS
Wave Energy Conversion System - IEEE Transactions on Sustainable Energy -
Impact Factor of 8.8.
https://ieeexplore.ieee.org/document/9772340
3-
Modeling and optimal operation of hybrid wave energy and PV system
feeding supercharging stations based on golden jackal optimal control
strategy - Energy Journal - Impact Factor of 9.0.
https://www.sciencedirect.com/science/article/abs/...
4-
State-of-the-Art of the most commonly adopted wave energy conversion
systems - Ain Shams Engineering Journal - Impact Factor of 6.0.
https://www.sciencedirect.com/science/article/pii/...
5-
Optimal Design of Fractional-Order PID Controllers for a Nonlinear AWS
Wave Energy Converter Using Hybrid Jellyfish Search and Particle Swarm
Optimization - Fractal and Fractional - Impact Factor of 5.4
https://www.mdpi.com/2504-3110/8/1/6
6-
Dynamic performance enhancement of nonlinear AWS wave energy systems
based on optimal super-twisting control strategy - Ain Shams Engineering
Journal - Impact Factor of 6.0.