sorry to be so offtopic but does any of you know a way to log back into an Instagram account..? I stupidly lost my login password. I love any assistance you can offer me
We will take only for parallel combination becoz the potential is common for all capacitor in case of parallel only.For series the potential changes for each capacitor so we can't take common potential.
Watch Playlist on Electrostatic Potential and Capacitance:
ruclips.net/p/PLWPirh4EWFpHIErFH5jbuUKOwoxwyr5a_&si=UBKBo8ZTcNLNHMrh
thank you sir i m from nepal....
your video was helpful for me
......
yeh man i am from tamilnadu. he is best teacher over yt for non hindi speakers like us 🥲. btw which book u follow for questions
Sir this loss is happened in both series as well as in parallel
Best explanation , every step will be cleared.. thank you sir..🙏🙏
sorry to be so offtopic but does any of you know a way to log back into an Instagram account..?
I stupidly lost my login password. I love any assistance you can offer me
@@suttonsantino1607 just tap on the forgot password and get your account back it's just Simple..
Really sir it is helpful for me 🤗🤔
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shivendra mishra 12th B 7765 seventeen sorry I had no idea , he surely helped me a lot 😟💔
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வாழ்க பல்லாண்டு
vanakamdha mapla
Aap bahut achha padhate hai
Thank you sir Once again 🙏🏻🙏🏻
Very helpful thank you very much sir
This man is a genius
Thank you so much sir.
sir thank you so much for such a clear explaination YOU ARE GREAAATT!!
you are great sir ;; ithink you are 2nd h.c verma
if there is loss of charge then how common potential is achieved
Thanks a lot!
Sir I want to ask is this energy loss depends on Parallel or series combination of capacitors in the starting?
Why we have assunmed the capacitors to be connected in parallel
Series
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I nees physics to help me curve the ball more.
nice sir....v.v.v.v thanQ sir
*Thanks for your support learn*
Thank you sir
U r awesome
is this applicable for both series and parallel combination or only parallel?
We will take only for parallel combination becoz the potential is common for all capacitor in case of parallel only.For series the potential changes for each capacitor so we can't take common potential.
genius
where will it go?
Time taking videos
See it with c
👌
I have a small Doubt that how the V common formula is came ?
same ...did you get
V common equals total charge(q) /total capacitance
Here total charge will be q1+q2
q1=c1v1 and q2=c2v2
Total capacitance=c1+c2
Hence
V=c1v1+c2v2/c1+c2
😝👍