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👉Displacement current is an apparent current which is generated by change in electric field. In mathematical term
I'd= surface integral of displacement current density J'd
For example in Capacitor we can find appearent current due to Changing electric field
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► About this video:
This video is about the James Clark Maxwell's differential form 4th equation and it is very useful for engineering physics AKTU students, BSc Physics in hindi students, and all other who need to know about this topic.
In this video displacement current is used. Here Maxwell 4th Equation derivation of Electromagnetics in differential form using Displacement current and Modified Amperes Circuital Law is discussed. Continuity equations also plays an important role in this derivation. 🌟 Unlocking the Secrets of Maxwell's 4th Equation | Displacement Current Made Simple! 🧲
Are you curious about the captivating world of electromagnetism? 🤔 Prepare to be amazed as we demystify Maxwell's 4th Equation in differential form, introducing you to the fascinating concept of displacement current! 💡
Join us on this electrifying journey as we break down complex theories into easy-to-understand layman terms. 🚀 Discover how Maxwell's 4th Equation revolutionized our understanding of electric fields and magnetism, paving the way for groundbreaking discoveries in modern physics. ⚡
By the end of this video, you'll grasp the concept of displacement current with absolute clarity, and you'll gain a new appreciation for the Modified Ampere's Circuital Law. 📚
Dr. Ashutosh Pandey, your expert guide in the world of Physics, will be your mentor through this enlightening adventure. 🎓 His passion for teaching and knack for simplifying the most intricate concepts will leave you inspired and hungry for more knowledge! 🔥
Whether you're a B.Tech or B.Sc. student or simply an avid learner interested in Physics, this video is your gateway to expanding your understanding of electromagnetism. 🌌
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Maxwell4thEquation in differential form
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