Maxwell's Third Equation Derivation | Faraday's Law Explained | Easy steps Engineering Physics скачать в хорошем качестве

Maxwell's Third Equation Derivation | Faraday's Law Explained | Easy steps Engineering Physics

‪@aboveengineering‬ Maxwell's Third Equation Derivation | Faraday's Law Explained | Engineering Physics In this lecture of **Engineering Physics**, we derive and explain **Maxwell's Third Equation**, which is based on **Faraday’s Law of Electromagnetic Induction**. Unlike the first two equations (which deal with static fields), Maxwell's Third Equation () introduces the concept of **Time-Varying Fields**. It explains how a changing magnetic field produces an electric field (EMF), which is the fundamental principle behind Transformers and Generators. We will start with the integral form of Faraday's Law, apply **Stokes' Theorem**, and derive the differential form step-by-step. --- 🔗 Previous Lecture Links: **Lecture – Maxwell's 1st Equation (Gauss Law):**[    • Maxwell First Equation : Derivation in eas...  ] *Lecture – Maxwell's 2nd Equation (Magnetism):* [   • Maxwell 2nd Equation Derivation || Easy st...  ]    • Trapezoidal Method to find Area || Basic c...      • BETA and GAMMA functions explained || Engi...      • Relation between Beta & Gamma function || ...      • Otto Cycle Explained | PV & TS Diagram | E...      • What is Divergence || engineering physics ...      • Gauss Divergence Theorem with Proof || Der...      • Maxwell Equations Explained || Full concep...   📌 Topics Covered in This Lecture: *Statement of Maxwell's 3rd Equation* – Relation between and . *Faraday’s Law & Lenz’s Law* – Meaning of the negative sign. *Integral Form* – . *Applying Stokes' Theorem* – Converting Line Integral to Surface Integral. *Derivation of Differential Form* – Proving . *Physical Significance* – Why the Electric field is non-conservative in dynamic conditions. --- 📚 Recommended Books (Standard References): Introduction to Electrodynamics – David J. Griffiths Engineering Physics – H.K. Malik & A.K. Singh Concepts of Physics – H.C. Verma (Vol 2) Higher Engineering Mathematics – B.S. Grewal Electromagnetics – Kraus & Fleisch --- 🔔 Stay Connected: 👉 *Join Our Telegram Group (Notes, PYQs & Updates):* [https://t.me/1PJ1V29Wm0NiNDll](https://t.me/1PJ1V29Wm0NiNDll) Maxwell third equation derivation, faraday's law of electromagnetic induction, maxwell equation differential form, curl of electric field, stokes theorem application, time varying magnetic field, electromotive force emf, integral and differential form, rgpv engineering physics, btech 1st year physics, engineering electromagnetics, negative sign in faraday law, lenz law explanation, physics for engineers, maxwell equations derivation in hindi, electromagnetic theory lecture, non conservative electric field, magnetic flux rate of change, maxwell equations one shot, physics exam preparation, vtu engineering physics, aktu physics unit 1, above engineering channel, electrical engineering basics. #maxwellequations #faradayslaw #engineeringphysics #electromagnetism #stokestheorem #rgpv #btechphysics #aboveengineering #physicsderivation #calculus #electricalengineering #science #physicsclass #examready --- ⚖️ COPYRIGHT DISCLAIMER Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "Fair Use" for purposes such as teaching, scholarship, comment, and research. Non-profit, educational, or personal use tips the balance in favor of fair use. 📢 *Subscribe to @aboveengineering* to 'Rise Above Average' and master your Engineering subjects!