Finding the charge for Capacitor

In summary, the charge on C4 is equivalent to the charge on the equivalent capacitor formed by C1, C2, and C4, which is then in series with C3. This equivalent capacitor has a capacitance of 6uF and a voltage of 10V, resulting in a charge of 60mC. Therefore, the charge on C4 is also 60mC.
  • #1
tony873004
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Homework Statement


Find the charge on C4. (That's the 4.0 uF in the middle). C1=15 uF, C2=10uF, C3=15uF, C4=4uF, battery = 10 v

capacitor.GIF


Homework Equations


Q=CV


The Attempt at a Solution


The presence of C1 (the one next to the battery) is confusing me. It's in series with C2 and C3. It's also in series with C4, but C4 is parallel to C2,3. I can't find an example on how to do this type of problem.

The answer is 24mC, but I don't know how to get it.
 
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  • #2
Deconstruct then reconstruct. Combine all resistors in series and parallel. Start with the inner-most part of the circuit (what looks to be the most complicated) and just start combining capacitors.
 
  • #3
I tried that, but with no luck

The 10 and 15 are in series, so they make a combined 6uF capacitor
This new 6 and the 4 are in parallel, so they make a 10
The new 10 and the bottom 15 are in series, so they make a 6.
So the whole circuit simplifies to a single 6uF capacitor.

Q=CV = 6*10 = 60

The 15 on the bottom and the combined 10 are in series, so the charge must be the same. Is this 60? Or does it get divided?

Reconstructing it, the 4 and the combined 15 on the top are in parallel. So assuming that the total is 60, how do I compute the charge on each?
 
  • #4
When computing charge, there are two important things to remember: Q is the same for capacitors in series and V is the same for capacitors in parallel. That should be enough ^^
 
  • #5
I still don't get it. I don't see any opportunity to have a voltage other than 10. When I do it, I don't get 24.
 
  • #6
Here's my effort showing where I get stuck

cap2.GIF
 
  • #7
If you replace two series capacitors by a single one, and then calculate the charge on the replacement capacitor, both of the original capacitors will have the same charge as the replacement capacitor. (because the same current went through them at all times)
 
  • #8
In my above diagram, I made a new capacator, c5, from the two series capacators. Assuming that the voltage is still 10, its charge is CV = 6*10 = 60. So c3 and c4 are both 60 also. But I need the charge on c4, so I'm not sure where to go from here.
 
  • #9
you should replace c1, c2 and c4 with a capacitor with the equivalent capacitance, and THAT capacitor is in series with c3, and will have the same charge.
 

1. How do you calculate the charge for a capacitor?

The charge for a capacitor can be calculated using the equation Q = CV, where Q is the charge in coulombs, C is the capacitance in farads, and V is the voltage across the capacitor in volts.

2. How do you find the capacitance of a capacitor?

The capacitance of a capacitor can be determined by dividing the charge on the capacitor by the voltage across it, using the equation C = Q/V. It can also be found by multiplying the permittivity of the material between the plates by the surface area of the plates and dividing by the distance between them.

3. Can the charge on a capacitor change?

Yes, the charge on a capacitor can change when it is connected to a circuit with a different voltage. It can also change over time as the capacitor discharges or charges.

4. Why is the charge on a capacitor important?

The charge on a capacitor is important because it determines the amount of energy stored in the capacitor. It also affects the behavior of a circuit, as the capacitor can release its stored charge and influence the flow of current.

5. How does the dielectric material affect the charge on a capacitor?

The dielectric material between the plates of a capacitor can affect the charge by increasing the capacitance. This is because the dielectric material reduces the electric field between the plates, allowing for more charge to be stored. The type and thickness of the dielectric material can also impact the charge on the capacitor.

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