Online Network Theory (AC and Dc Circuits) Course
Course Overview
This Online Electrical Circuit Course for AE & SAE is designed to provide a complete, exam-focused preparation on Network Theory. Covering all the essential chapters with 18 live interactive sessions (2+ hours each), the course ensures that learners gain both conceptual clarity and problem-solving skills needed to excel in competitive exams.
Instructor
Md. Sakhwat Hossain
Assistant Engineer, Power Grid Bangladesh PLC
With a strong academic and professional background, Mr. Hossain has served at leading organizations such as BPDB, BCIC, NESCO, WZPDCL, BREB, and Biman Bangladesh Airlines. He also recommended as assistant Engineer at BPDB and BCIC . He brings extensive practical knowledge combined with exam-oriented teaching techniques.
Course Features
- 18 Live Classes (2+ hours each) via Zoom Premium
- Recorded Classes Provided – so you never miss a lecture
- 532 Solved Math Problems (Encrypted PDF) for practice
- 7-Day Support System for all academic queries
- Exam-Oriented Guidance specifically for AE & SAE aspirants
- Affordable Fee with maximum value
- To watch demo class visit DEMO Class Playlist
Course Modules
Class 1–2: Chapter 1 – Basic & Electric Circuits
- Concept of charge, current, voltage, power, and energy
- Circuit elements (active, passive, linear, non-linear, unilateral, bilateral)
- Types of sources (independent & dependent)
- Problem-solving on fundamentals
Class 3–4: Chapter 2 – Basic Laws
- Ohm’s Law & resistance concepts
- Kirchhoff’s Current Law (KCL) & Voltage Law (KVL)
- Voltage & Current Division Rule (VDR, CDR)
- Source transformation, source combinations, Wye-Delta conversion
- Practice problems
Class 5: Chapter 3 – Nodal & Mesh Analysis
- Nodal analysis & supernode
- Mesh analysis & supermesh
- Numerical applications
Class 6–7: Chapter 4 – Circuit Theorems
- Superposition theorem
- Thevenin’s theorem
- Norton’s theorem
- Maximum power transfer theorem
- Dependent sources in Thevenin/Norton circuits
Class 8: Chapter 5 – Capacitors & Inductors
- Energy storage & relationships
- Series-parallel combinations
- Problem-solving on capacitors & inductors
Class 9–10: Chapter 6 – First Order RL & RC Circuits
- Laplace transform basics & properties
- RC & RL circuits (source-free and step response)
Class 11–12: Chapter 7 – Second Order RLC Circuits
- Source-free series & parallel RLC response
- Overdamped, critically damped, underdamped cases
- S-domain analysis
Class 13: Chapter 8 – Sinusoidal Steady-State Analysis
- Phasors & impedance
- Nodal & mesh analysis in AC circuits
- Maximum power transfer in AC circuits
- Millman’s theorem & Tellegen’s theorem
- Phasor diagrams
Class 14: Chapter 9 – AC Power Analysis
- Instantaneous, average, reactive & apparent power
- RMS values & power factor
- Power triangle analysis
Class 15: Chapter 10 – Magnetically Coupled Circuits
- Self & mutual inductance
- Dot convention & coupled coils
- Ideal transformer & reflected impedance
Class 16: Chapter 11 – Frequency Response & Resonance
- Transfer functions
- Series & parallel resonance
- Bandwidth & quality factor
Class 17: Chapter 12 – Two-Port Networks
- Z, Y, h, g, and ABCD parameters
- Reciprocity & symmetry conditions
- Transmission & inverse transmission parameters
Class 18: Special Topics – Three Phase Circuits
- Star & delta connections
- Two-wattmeter method
- Three-phase power & power factor calculation
Who Should Join?
- Aspirants preparing for AE & SAE exams in power sector organizations
- EEE/ECE graduates who want to strengthen their Network Theory knowledge
- Professionals seeking to revise core circuit analysis concepts
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- To watch demo class visit DEMO Class Playlist
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Final Outcome
By completing this course, you will:
✔ Master all fundamental & advanced concepts of Network Theory
✔ Solve 532+ standard problems with confidence
✔ Be fully prepared for competitive engineering job exams (AE & SAE)⊕ Seats are limited – Enroll today to secure your spot in this exam-focused program.
You can join with us and follows to get free solution of your problem .
What’s App Group
https://chat.whatsapp.com/FJk6nXlL2NEJzb1x1aPH4f
Facebook group
https://www.facebook.com/groups/629413939272546/
Telegram Group
Course Content
Online Network Theory (AC and Dc Circuits) Course lecture videos
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Class 01 : node , brunch, mesh, source, source transformation, resistance , resistance calculation, VDR, CDR
02:06:00 -
class 2 star delta conversion, linearity ,active passive unilateral bilateral elements equivalent resistance for infinite chain, equivalent R using symmetry
02:11:06 -
class 3 equivalent resistance of complex structure using symmetry, kcl (point and closed surface), kvl( loop wise and point wise)
01:57:00 -
class 4 math using linerity property, Nodal analysis , techique to write nodal equation in one line
02:03:00 -
class 5 mesh analysis thevene norton max power reciprocity telegens millmans
02:14:00 -
class 6- capacitor, inductor and its voltage current characteristics, first order circuit
01:04:00 -
class 7 first order circuit solution , circuit solve using laplass transform
01:59:00 -
class 8 ac system phasor diagram of series, parallel , series-parallel circuit
02:15:00 -
class 9 RMS , average value calculation
02:18:00 -
class 10 math practices of rms clculation of harmonics and power calculation
02:08:00 -
classs 11- three phase circuit part 1
02:29:00 -
class 12 three phase circuit part 2
01:57:00 -
class 13 three phase circuit part 3
02:35:00 -
class 14 : three phase circuit part 4
02:11:00 -
class 15 magnetic circuit part 1
02:17:00 -
class 16 magnetic cicuit part 2
01:57:00 -
class 17 resonance circuit
01:39:00 -
lecture 18 two port network
01:42:00 -
class 19 2nd order circuit
02:04:00 -
first order circuit of Opam
46:00 -
ac phase shift related calculation math
22:00 -
An L has having a Q-factor of 60 is connected in series with a capacitor having a Q-factor of 240.
08:00 -
special technique , Dummy current voltage method
16:00
Lessons:
whats app group support is very good!!