Node Voltage Analysis: Make Circuits Easy
The first real analysis technique — KCL organized into a systematic method. Master this and you can solve any DC circuit.
Circuits Made Intuitive
No memorization. No magic. Just physical intuition and honest explanations.
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Intuition First
Every formula gets a physical story. If you can't visualize it, I haven't explained it well enough.
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VLSI Focus
Digital, analog, mixed-signal — from the transistor up. Semiconductor physics with real context.
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Study Journey
Alexander Sadiku → Razavi → Gray Meyer. Follow along as I build foundation for IC design mastery.
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First Principles
No shortcuts, no black boxes. Every component gets explained from the physics up — the way engineering should be taught.
Latest Articles
Current Dividers: Mirror of Voltage Dividers
Current dividers split current across parallel paths — and the formula is swapped from voltage dividers. Here's the intuition.
Voltage Dividers: Intuition Before Formula
The simplest circuit that actually does something useful — two resistors, one formula, and the intuition to use it right.
Series & Parallel Resistors: The Visual Story
Why do we add resistors in series but use reciprocals in parallel? The pipe analogy makes it obvious.
Kirchhoff's Laws for Visual Learners
KCL and KVL are not rules to memorize — they're conservation laws that are obvious once you see the water analogy.
How I Study Circuits: The Visual Method
From Sadiku to Razavi to Gray Meyer — the system, the tools, and the mindset that actually works (no memorization required).
Chapter 1 Intuition: What Sadiku Actually Wants You to Know
The fundamental concepts that make circuit analysis click — voltage, current, power, and passive sign convention explained like you're seeing them for the first time.