Solve Capacitor Circuit: Is My Method Correct?

AI Thread Summary
The discussion revolves around solving a capacitor circuit problem involving four capacitors, a battery, and a switch. Initially, the charge on capacitor C3 is calculated, and the user seeks to determine the charge on C4 after switching from position A to B. It is clarified that while C1 and C2 are in series, they combine with C3 in parallel, and C4 does not affect the initial charge distribution. The total charge on C3 redistributes between C3 and C4 when the switch is moved, allowing for the calculation of the voltage and charge on C4. The user gains clarity on the configuration and calculations involved, confirming their understanding of the circuit dynamics.
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Capacitor Circuit: Is My Method Correct?

Homework Statement


Four capacitors, a battery and a switch are assembled in the circuit below. Initially, the switch is set to position A and C4 is uncharged.
At t = 0, the switch is moved to B.
Find Q4, the charge on C4 when the switch is on B.
http://online.physics.uiuc.edu/cgi/courses/shell/common/showme.pl?courses/phys212/oldexams/exam1/fa09/fig20.gif


Homework Equations


Q= CV


The Attempt at a Solution



The initial charge on the C3 capacitor = C3 * V1

Now as the switch to moves to B.

The total charges remains the same, but the voltage changes.

Then

Q = ( C3 + C4 ) V2

V2 = Q / ( C3 + C4 )


next with V2 found

Q4 = C4 V2

*****************

Ok, so that is the only way I've been able to figure this out, however, arent the capacitors in series? In that case I would have to change the equivalent capacitance equation to 1/(1/C3+1/C4) which doesn't work out. Can someone please explain what's going on?
Help would be greatly appreciated. Thanks in advance!
 
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The question doesn't quite make sense at the moment.
Is the switch first connected to A, and then to B?
 
Yes, I'm sorry its a three part question and I forgot the main part of the question statement. Fixed now.
 
Last edited:
Anyone able to help? I've got the answer, I just want to know if I am doing it correctly and whether the capacitors are considered to be in parallel or in series and why.
 
Your method seems correct.
In the first part, C1 and C2 are combined in series, and the result of that combination is combined with C3 in parallel. C4 has no effect.
When the switch is on B, some of the charge on C3 moves on to C4 until the pd is the same across both (=V). The total charge that was on C3 (=Q) is now distributed between C3 and C4. So C3xV + C4xV= Q
This gives you V
Knowing V will give you Q for C4.
 
Stonebridge said:
Your method seems correct.
In the first part, C1 and C2 are combined in series, and the result of that combination is combined with C3 in parallel. C4 has no effect.
When the switch is on B, some of the charge on C3 moves on to C4 until the pd is the same across both (=V). The total charge that was on C3 (=Q) is now distributed between C3 and C4. So C3xV + C4xV= Q
This gives you V
Knowing V will give you Q for C4.

Thank you, the bold part is where I was confused. But now I see I was looking at it the wrong way. Thanks!
 
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