Voltage Across Two Capacitors In Series

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Homework Help Overview

The discussion revolves around the behavior of voltage across two capacitors in series, particularly focusing on the relationships between charge, voltage, and capacitance. The original poster attempts to solve a problem involving the equations governing capacitors and their series configuration.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the assumptions regarding the voltage and charge relationships in capacitors in series, with one participant expressing confusion over their algebraic approach and seeking a simpler method. Others clarify that the charges on the capacitors are equal and question the validity of the original poster's assumptions.

Discussion Status

The discussion is active, with participants providing clarifications that simplify the problem for the original poster. There is an acknowledgment of the complexities involved in the algebraic approach, and some participants are exploring the implications of the assumptions made regarding voltage and charge.

Contextual Notes

There is a mention of specific values for capacitance in a later part of the problem, which may influence the understanding of the relationships being discussed. The original poster expresses uncertainty about their assumptions and seeks validation of their reasoning.

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Homework Statement


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Homework Equations


Q=CV


The Attempt at a Solution


For part A, I've tried working out the algebra, with the assumptions that V1 + V2 = V and Q1 + Q2 = Q

Basically, I solved Q by finding the equivalent capacitance, then said Q1=C1*V1 and Q2=C2*V2
Then by my second assumption, said Q - Q2=C1*V1.

Next I eliminated Q2 by combining those equations. At this point the only two unknowns were V1 and V2 which I solved for using the first assumption. As you can imagine this resulted in an algebra nightmare. I'm afraid that I am completely off track with this problem. I there an easier way to solve this?

Thanks
 
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You are missing the key: the charges on the two capacitors are equal. That is because any electrons taken away from one go onto the other.

(a) is a strange question, assuming you can't use the C1 = 10C2 info given in (b). I guess the (a) answers will be messy and include Q, V, C1 and C2 in their expressions.
The (b) answers will be very simple.
 
Thank you very much for your reply. That makes the problem MUCH simpler. I had actually been stumped before about how current was even able to flow across a capacitor at all, then I read about how charge collecting on one plate would cause charge to move off the opposing plate, causing a current. I just didn't realize that this would imply that the charge across the two capacitors would be the same.

I did have one other question, and that was if my assumption that V1 + V2 = V is correct. I can't think how this could be proven, and I know that it's not true if the capacitors are in parallel, but it seems like it should be, just by intuition. But it seems that my intuition and physics are rarely the same.

Thanks so much for your help.
 
V1 + V2 = V
No doubt about that.
 

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