Electric circuit - Why is the switch needed in this capacitor circuit?

In summary, the switch in this capacitor circuit is needed because it allows the capacitor to become charged when it is closed. Before the switch is closed, the capacitor and switch are in series and the charge across both can be considered zero. This is because a battery, which is electrically neutral, cannot supply enough electrons to "pump" them onto the nearer plate of the capacitor. Additionally, the potential difference between two points in the circuit, one between the left conductor and the "+" pole and the other between the right conductor and the "-" pole, is mostly the same. However, there may be a very small voltage drop across the extra bit of wire.
  • #1
Sogan
3
0
electric circuit -- Why is the switch needed in this capacitor circuit?

Hi,

I have two questions with respect to the picture in the attachment.:

1)
I have read, that the capacitor become charged, when the switch is closed. All right, but why the capacitor doesn't became charged before the switch is closed?
At least the left conductor is connected with the positive pole of the battery, so I thought the electrons will leave the left conductor.

2)
In the picture we can see a potential difference V between two points of the electric circuit. Is the potential V always the same between two points, whereas one Point is between the left conductor and the "+"Pole and the other one is between the right conductor and the "-"Pole?

Regards!
 

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  • #2
Welcome to PF!

Hi Sogan! Welcome to PF! :smile:
Sogan said:
1)
I have read, that the capacitor become charged, when the switch is closed. All right, but why the capacitor doesn't became charged before the switch is closed?
At least the left conductor is connected with the positive pole of the battery, so I thought the electrons will leave the left conductor.

actually, it is, very very slightly …

a switch is just a capacitor with a very small plate area (A) and a very large separation (d)

since capacitance is 8.85 10-12 A/d, that means that the capacitance of a switch is extremely small (well under 10-15 F)!`

(actually the A/d formula really only applies if A is much larger than d2, but you get the idea)

capacitance is the ability to separate charge, and a switch can separate hardly any charge

if a switch and an ordinary capacitor are in series, the charge across both must be the same

for all practical purposes, the charge (across both the capacitor and the switch) can be considered zero :wink:

why can't the battery "pump" electrons onto the nearer plate of the capacitor?

a battery is electrically neutral, it doesn't supply electrons, it can only shunt them … it would have to take an electron from the switch, and the battery simply doesn't have enough strength to do that! :smile:
2)
In the picture we can see a potential difference V between two points of the electric circuit. Is the potential V always the same between two points, whereas one Point is between the left conductor and the "+"Pole and the other one is between the right conductor and the "-"Pole?

more or less …

the only difference would be the (extremly small) voltage drop across the extra bit of wire :wink:
 

1. How does a switch affect the flow of electricity in a capacitor circuit?

A switch is used in a capacitor circuit to control the flow of electricity. When the switch is closed, it allows the current to flow through the circuit, charging the capacitor. When the switch is open, the flow of electricity is interrupted and the capacitor retains its charge.

2. Can a capacitor circuit function without a switch?

Yes, a capacitor circuit can function without a switch. However, a switch is important in controlling the flow of electricity in the circuit and can be used to turn the circuit on or off.

3. What happens if the switch is left open in a capacitor circuit?

If the switch is left open in a capacitor circuit, the capacitor will retain its charge and no current will flow through the circuit. This can be useful in certain applications where a temporary or permanent storage of charge is needed.

4. Why is it necessary to use a switch in a capacitor circuit?

A switch is necessary in a capacitor circuit to prevent the capacitor from constantly charging and discharging. It also allows for the control of the flow of electricity in the circuit, making it more efficient and practical for various applications.

5. Can any type of switch be used in a capacitor circuit?

Yes, any type of switch can be used in a capacitor circuit as long as it is capable of handling the flow of electricity in the circuit. Common types of switches used in capacitor circuits include toggle switches, push button switches, and rotary switches.

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