The discussion revolves around the formula for energy stored in a capacitor, E = C x U^2 / 2, exploring its mathematical derivation and real-world application. Participants express confusion about the formula's implications and seek clarification on its theoretical underpinnings and practical significance.
Participants do not reach a consensus on the understanding of the energy formula for capacitors. Multiple competing views and interpretations of the formula's implications and derivations remain present throughout the discussion.
Some participants express uncertainty about the mathematical foundations of the formula, while others reference external resources that may not be accessible to all. The discussion highlights the complexity of integrating theoretical concepts with practical applications.
This discussion may be useful for students and enthusiasts of physics and electrical engineering who are grappling with the concepts of capacitance, energy storage, and the mathematical relationships involved in these topics.
Perhaps I used the wrong term, but I understand it from the point of Q= C x U in which it applies the formula of charge to the formula of energy and converts Q to C. Sonasu said:
To the potential electrical energynasu said:
I am not surenasu said:
So have I understood it correctly, when the charge is passing the conductor there will be an electrical resistance . This resistance will cause it to loose half the energy used to charge a cap as you just referred. That is why we divide it by 2? But then why is the current multiplied by itself ( U^2)?litup said:
I am afraid you don't really understand the math and this may be the source of your problem.naiasetvolo said:
Nasu, how should I take a look at it when that is the source of my problem? I need someone who can guide and explain to me so that can open up my brainnasu said:
There is always an explanation to everything, the source of everything starts with thoughts- a theoretical reason for why this formula exists. And I want that so I can start to think and analyze.nasu said:
You started by saying that you understand it mathematically.naiasetvolo said:
I understand your point, do you yourself have an explanation to this formula of why it is like that?nasu said:
I cannot open the site.nasu said:
And I have a bunch of resources but non of the textbooks I have used note* in different languages have answered my question, if you understand why it is the way it is, I appreciate your helpnaiasetvolo said:
Why do you refuse the ready made explanations that are in all the textbooks and also the hyperphysics site? The factor of 'a half' is there as a result of integration. If you don't want to do the maths then you are pretty well doomed not to understand this. You need to put in some effort on your own, I think because there is no adequate and simple arm waving reason.naiasetvolo said:
BillyT said:
No. that is not correct. I'll wait a little more before answering my own question., but give a hint to part of the answer: All capacitors have some inductance. Thus, as the charged capacitor dumps energy into the uncharged one, its inductance is storing energy too. When that magnetically stored energy is again zero, the initially charged capacitor will have LESS than V across its terminals and the other more than V.gleem said:
Do you have link to earlier one, giving the correct answer?nasu said:This problem was discussed on the forum. More than one time, I believe.
It keeps coming back.
Yes. Here is link with relatively complete and correct dicussion:sophiecentaur said: