Why do capacitors with different capacitance values have different uses?

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In summary, capacitors with small capacitance are better for RC circuits as the potential difference across the capacitor is limited, while capacitors with a big capacitance can handle more potential and are therefore better for filters and other applications where high discharge currents are needed.
  • #1
fluidistic
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If you can get any difference of potential across a capacitor of any capacitance, why it's better to use capacitors with small capacitance in some cases and capacitors with a big capacitance in other cases?
 
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  • #2
I would think it has to do with the amount of charge able to be stored in the capacitor and maybe the rate at which it discharges in an RC or RLC circuit.
 
  • #3
timthereaper said:
I would think it has to do with the amount of charge able to be stored in the capacitor and maybe the rate at which it discharges in an RC or RLC circuit.

If there is a limited amount of charge being able to be stored within the capacitor, it means there is also a limit of the difference of potential across it.
Then I have some questions arising from this fact.
In an RC series circuit, imagine there's an emf of 1000 V and the capacitor has its maximum voltage, namely 500 V. Will there be any current in the circuit?
Does the maximum voltage across the capacitor mean it's fully charged?
 
  • #4
fluidistic said:
If you can get any difference of potential across a capacitor of any capacitance, why it's better to use capacitors with small capacitance in some cases and capacitors with a big capacitance in other cases?
You actually cannot. The maximum voltage depends on the distance between plates and the value of the electric breakdown field of the dielectric.
The maximum voltage is given by V_max=E_breakdown * d.
If you go over this you will get a discharge through the dielectric and ruin the capacitor (and maybe the circuit).
The voltage indicated on the capacitor may be less than this maximum value, to allow for some safety factor.

The capacitance used in a given circuit may depend less on how much charge you can store but rather on time constant desired for discharge or for oscillating processes. In filters the capacitance determines the filter parameters, and so on.
 
  • #5
I'd suggest reading about time constants and/or cut-off frequencies
 
  • #6
Ok thank you guys!
So I'm left with the questions of post #3.
 
  • #7
fluidistic said:
In an RC series circuit, imagine there's an emf of 1000 V and the capacitor has its maximum voltage, namely 500 V. Will there be any current in the circuit?
Yes, the current will be (1000-500)/R

Does the maximum voltage across the capacitor mean it's fully charged?
The capacitor doesn't "know" anything about a maximum voltage, or being fully charged. "Maximum voltage" just means the voltage that the capacitor is designed to withstand without failing.

In your RC circuit, the voltage across the capacitor will keep rising towards 1000V until something stops it, and that "something" might be the capacitor self-destructing. Or the capacitor might work properly at twice its "maximum" voltage for longer than it takes for you to do the experiment - though it is a bad idea to design electronic circuits that deliberately take components outside of their designed operating conditions.
 
  • #8
Thank you very much AlephZero. I understand much better now.
 

Related to Why do capacitors with different capacitance values have different uses?

What is a capacitor?

A capacitor is an electrical component that stores and releases electric charge. It consists of two conductive plates separated by an insulating material, known as a dielectric.

How does a capacitor work?

A capacitor works by storing electric charge on its plates. When a voltage is applied across the plates, the electrons from one plate are attracted to the other, creating an electric field. As a result, the capacitor is charged and can then release the stored energy when needed.

What are the different types of capacitors?

There are several types of capacitors, including ceramic, electrolytic, film, and variable capacitors. Each type has its own unique characteristics and is suitable for different applications.

What factors affect the capacitance of a capacitor?

The capacitance of a capacitor is affected by several factors, including the surface area of the plates, the distance between the plates, and the type of dielectric material used. The capacitance also increases as the voltage applied across the plates increases.

What are some common uses of capacitors?

Capacitors have a wide range of applications in electronics, including filtering and smoothing power supplies, storing energy in flash cameras, and providing timing and tuning in circuits. They are also used in electric motors, audio systems, and many other electronic devices.

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