- #1
carlyn medona
Homework Statement
Each plate in the figure has area a and separation d , end of battery is e find charge supplied by battery
Charge Distribution in a Parallel Plate Capacitor with Connected Plates
- Thread starter carlyn medona
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Homework Help Overview
The discussion revolves around charge distribution in a parallel plate capacitor setup, specifically focusing on the effects of connecting the plates to a battery. Participants explore the implications of charge supplied by the battery and the relationships between the charges and potentials of the plates involved.
Discussion Character
- Conceptual clarification, Assumption checking, Problem interpretation
Approaches and Questions Raised
- Participants question the distribution of charge among the plates, particularly whether each plate receives half the charge from the battery. There are discussions about the implications of the battery's connection and the potential differences across the plates.
Discussion Status
The conversation is ongoing, with participants providing insights and questioning each other's assumptions. Some have suggested simplifying the problem by drawing diagrams, while others are exploring the relationships between charge densities and potentials. There is a recognition of the need for further clarification regarding the charge distribution and the potential of the connected plates.
Contextual Notes
There are mentions of potential confusion regarding the number of plates and their connections, as well as the need for independent equations to solve for the unknowns in the charge distribution. Participants are also considering the implications of the electric field within the plates and the conditions for charge equilibrium.
Each plate in the figure has area a and separation d , end of battery is e find charge supplied by battery
- #2
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Do you mean the two connected to the battery? If so...carlyn medona said:
... but they are connected to opposite poles.carlyn medona said:
For the two plates not connected to the battery, what is the relationship between their charges, and what is the relationship between their potentials?
- #3
carlyn medona
I mean magnitude of charge on each facing plate, won't that be q÷2 and, the plates connected together are at same poyential
- #4
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I still do not know which plates you mean. There are four plates, and they face each other.carlyn medona said:
Where q is what?carlyn medona said:
Yes.carlyn medona said:
- #5
carlyn medona
Q is charge supplied by battery
- #6
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Does the battery gain a net charge?carlyn medona said:
- #7
rude man
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You have 3 capacitors in series. Draw a schematic diagram, simplify if possible, then solve as a circuit problem.
- #8
carlyn medona
Is potential difference across the series connection equal to the emf of the battery?
- #9
rude man
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No. Did you draw the diagram?carlyn medona said:
- #10
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@carlyn medona , you did not answer my question. You say q is "the charge supplied by the battery", which is fine, but seem to think that means it supplies q/2 to a plate on each terminal, which is definitely not fine. That would mean the battery itself acquires a net charge of -q, which is nonsense.
The terminals are oppositely in sign, so what does a battery "supplying a charge of q" mean?
The terminals are oppositely in sign, so what does a battery "supplying a charge of q" mean?
- #11
- #12
rude man
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Your first tipoff that something is wrong is as follows: put a test charge inside the leftmost plate (4). The E field in that plate (E4) is of course zero. Now look at the contributions to E4 from all 8 sides of charge.carlyn medona said:
From side 8 (left side of leftmost plate) you get some E field, if non-zero, pointing, say, to the left (- charges on side 8). Now, sides 7 thru 2 cancel out any contribution to E4 since those are pairs of equal and opposite charge. That leaves side 1 to contribute to E4. But surface charge density on side 1 must be equal to that of side 8 in order to get a zero E4 field, yet you have those sides as being of opposite polarity, so something is wrong.
You'll have to show your work for further help. You do have equal and opposite charges on all inside adjoining surfaces, and you have Q2+Q4=0, and Q1+Q2+Q3+Q4=0, so that 's good. But somewhere you made a slipup (assuming I'm right to begin with
).- #13
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At last I know what you mean by "q/2 to each facing plate". You meant q/2 to each face of one plate (and -q/2 to each face of the other plate). A pity you did not try to explain that before.carlyn medona said:
I suggest you start by ignoring the other two plates and consider how charge would be distributed across the faces of the two connected to the battery. Would you still put magnitude |q/2| on each face? Then insert the other two plates and consider how charge would rearrange itself on those. Of course, that might lead to rearrangement of charge on the first two, but it should give you a better understanding of how things should look.
- #14
- #15
rude man
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This is incomplete and hard to read.carlyn medona said:
Show your work.
BTW if you haven't covered capacitance yet you can derive all 8 charge densities by the two equations in Q1-Q4 I posted in #12, plus σ = D plus V = - d⋅E.
(σ = Q/area, D = εE).
Last edited:
- #16
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The other thing to check is whether the two plates connected to each other are at the same potential. If so,that must be the solution.carlyn medona said:
- #17
rude man
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That's true, but consider: you have 6 unknowns (the 5 non-redundant side charge densities plus the potential of the connected two plates). So you need 6 independent equations to solve for everything. Try to use the hints I gave you last time to come up with these equations.haruspex said:
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