Capacitor Explained : Calculations | Series | Parallel | Charging | Discharging

Thank you Prof for your simplified and basic approach for the knowledge you gave us. If you are an instructor, your students are lucky.

serkaddis

You have helped to close this gap on a fundamental understanding of capacitors, what an amazing video, thank you and good luck with the rest of your vids!

JonathanPerez-cp

Very good video. What about this suggestion:
12:41 The permittivity remains unexplained; it could have been compared with the membrane thickness or membrane elasticity in the water cycle (...and also comparison of the surfaces...).
... And PLEASE CORRECT the equations (C2<->C3)!!

bennybro

Beware there is a typo in the equations in 15:04 whre it was supposed to be "C3 = C1 + C2" (not "C3 = C1 + C3" with C3 on both sides of the equation) and in 17:10 whre it's supposed to be "1/C3 = 1/C1 + 1/C2".

vinicus

nice explanation and presentation... thank you for sharing, God bless!

emmanuelgonzales

thanks for the very clear and intelligent explanation

UnitFerminBDauag

When I have to use non polarised capa and when the polarised capacitor, Nice explanation as usual.

soufbel

This is by far the best explanation of capacitance, especially series vs parallel, I have ever seen. Thank you so much. Doing the algebra at the end to show the reciprocal might have helped some people tho. I mean def not me - I'm super smart and of course immediately realized that ;)

lephtovermeet

Was great work, Thank you very much. Hello everyone from Kyrgyzstan 🇰🇬

ЖумгалбекБекболотов-жн

Dear Prof C3= C1+C2 for parallel C. You can change it if you like. Thank you for the good presentation.

nnusrettersunn

Please do a video on Kirchhoff's Current and Voltage laws. It would be interesting to hear your explanation. Thanks

JoediyLab

You are presenting capacitor but also explaining all concepts behind electrical theory, thank you so much

ferhatnusreturuc

Hello dear professor
Your lessons are really interesting and crucial, thank you so much for your help and advice, i do appreciate your job, i wish you peace and happiness under the sky of prosperity, all the best.
Take care and have a good time.

saidfarid

Very well explained except when calculating the total capacitance in the series example you mistakenly used C3 = C1 + C3 where it should be C3 = C1 + C2. The same happened in the parallel example where you said 1/C3 = 1/C1 + 1/C3 where is should have been 1/C3 = 1/C1 + 1/C2.

AndreLouwElectricalTech

@15:00 C3 = C1 + C2 and likewise in the series @17:12 1/C3 = 1/C1 + 1/C2

PaxtonSanders

Professor Mad there is a type O in your slides the the C3 on the right side of the equations should be C2.

paulk

Terrific video!!! It's great for a dummy like me. But sometimes the video refers to voltage meaning "across the battery and a plate, " and sometimes meaning "across the plates." This confused me. Please always refer to voltage specifically as across what.

elilato

Sir please explain the construction and working of DC motor and DC generator

kumarRM

Thank you for making the topic so easy to understand sir ✨😇

ishashankar

Excellent Tutorial. Thank You.
But be aware that the paper separators can successfully be thought of as the Dielectric in a 470 uf Capacitor for this lesson, but they are not. If the paper was the Dielectric then the Electrolytic Capacitor would have the same Capacitance when wet or when dry. But a dry Electrolytic is very Low in Capacitance, maybe, possibly in the Picofarads.

Food for thought: The actual Dielectric in an Electrolytic Capacitor is microscopically thin (hence the Large Capacitance) and the Electrolyte's 2nd. function is to effectively extend one of the Plates through and past the paper separator, all the way up to the extremely thin Dielectric.

Gregory/
The Pigeon Meister
... .🐦‍⬛

gregorypirog