Unlocking Secrets: Calculating Electric Potential in Polarized Dielectric Materials
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- čas přidán 13. 04. 2020
- #electricpotential #dielectric #physicsexplained
Welcome to our in-depth exploration of electric potential in polarized dielectric materials. In this illuminating video, we delve into the intricacies of determining electric potential with clarity and precision.
Discover step-by-step techniques and expert tips to unravel the mysteries of this essential topic in electrical engineering and physics. Whether you're a student, researcher, or simply curious about the fascinating world of dielectrics, this video equips you with the knowledge you need to excel.
Join us on this journey of discovery and empower yourself with the skills to unlock the secrets of electric potential in polarized materials. Don't forget to like, share and subscribe to this channel. And of course, press the bell icon to get further notifications.
#dielectrics#electrostatics#dielectricpolarization
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Nice
Bah darun hyeche vai.
Nice content...👌👌
Good.
Thank you
nice sir
Very nice video, i loved it❤️❤️
Thank you
Sir kub sundar hoyeche. Sir please multipole expansion diye ekta ai rokom valo ekta video upload koren kub help hobe sir please
ok, banabo.
@@PHYSICSTUTOR THANKU SIR..
Nice content and nice editing. 👍
Thank you
darun
ধন্যবাদ
you just go ahead with your videos you need not see how many likes you got , you are just superb and doing a great help to the students and also to faculty who are teaching this subject for the first time.
Thank you very much
Can you please tell me, what we call n cap in gauss divergence theorem? and it's use?
Please reply
n cap is just an unit vector. It is used to show that the respective quantity has a specific direction. Basically n cap is useful in determining the direction and ease of calculation.
amra full electrostatics and magnetostatics ar video chai
apnar kachea ekanto anurodh apni banan
ok. stay tuned.
i think the potential of a dipole is 1/r*2 not 1/r*3...
once you simplify the dot product in the numerator with the denominator, you get your 1/r*2 from current 1/r*3 formula