Maxwell Equations- Maxwell Equations Derivation- Maxwell Equations in Differential and Integral Form

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This video lecture explains maxwell equations. You will find the Maxwell 4 equations with derivation. Proof of Maxwell equations has been given in this video.
Maxwell equations in differential form and integral form are given here.
The equations of Maxwell are based on the following laws of Physics -
Faraday's law, Gauss theorem (Gauss law), ampere's circuital law and monopole does not exist.
Maxwell equations are extensively used in the electromagnetic field theory.
The derivation of maxwell's 4 equations uses frequently, gauss divergence theorem and Stokes theorem.
The fourth equation of Maxwell can be used for time varying fields after modification in the ampere circuital law. After modification maxwell equation becomes consistent with the equation of continuity.

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Комментарии

just never stop making videos you are a life saviour

allrounder

The best explanation ever on Maxwell's Equations, well understood. Thanx.

dennisoluoch

Thanks professor, for your simple, vivid narration of Maxwells equation.

joserobing

Tysm Sir😊
It's easy to understand instead of book.

priyamall

in second equation, you put q = surface integral of D.
but actually according to gauss law, q = epsilon D . s.
but you didnt put the eplsilon in integral equation

the_m.a.d.d.y

Tqsm sir this makes students very clear.I was searching for this type of videos👏👍

bhoomikaprakash

sir very informative video, helped me from getting smoked'♥💙

soumilkapoor

thanku sir for an awesome explanation just subscribed your channel

_cypher_

The reason why the divergence of J is 0 in minute 17:01 is not exactly correct. A good justification would be that the divergence of a curl is always 0 under general conditions (Clairaut-Schwarz lemma), the use of the del operator is just symbolical, it’s not an actual vector.

sebastianfraga

really a Good explanation for Me. Thank you so much .

kishoornj

Thnx so much sir. It's really helpful

hichamguediri

Is it Maxwell's equations or modified Maxwell's equations?

prithwishpal

Proof by ampere's circuital law is too long...
The rest are very simple n easy to understand aniy tq so much.

khosiiaimson

Sir can I use your video for educational purpose.for my students as well

Snowdropoppl

Y should have shorted out ampere circuital law in ur ways 😍but rest all are easy thanks 🙂

ramboworld

Tqsm sir...it's very easy to understand

mavuritejaswi

Can u plz teach me surface integrals and volume integrals?😢 coz I wd understand them had I known them

JustineKemigisha-bg

How d is changed into curl that symbol please anyone tell 6

Clutchgod-lz

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