4.1:

Capacitors

JoVE Core
Electrical Engineering
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JoVE Core Electrical Engineering
Capacitors

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01:15 min

April 11, 2024

Capacitors play a crucial role in car radios, where they filter and store frequencies to ensure clear signal reception. Essentially serving as energy storage devices, capacitors store energy within their electric field and are composed of two parallel conducting plates separated by a dielectric.

When a voltage source is connected to a capacitor, positive and negative charges accumulate on the opposite plates. This accumulation generates a potential difference that equals the product of the electric field and the distance between the plates. This process continues until the potential difference reaches the source voltage.

The electric field within a capacitor is proportional to the charge stored on the plates and the area of the plates. The stored charge is directly proportional to the applied voltage. The proportionality constant in this relationship is known as capacitance, which indicates the amount of charge needed to create a given potential difference. The unit used to measure capacitance is the farad.

For parallel plate capacitors, the capacitance is directly proportional to the plate area and the permittivity of the dielectric, which is the material's ability to store electrical energy. Meanwhile, the capacitance is inversely proportional to the distance between the plates; the closer the plates, the higher the capacitance.

By differentiating the charge-voltage equation of a capacitor with respect to time, one can derive the current flowing through the capacitor. This is particularly important when considering how capacitors behave in circuit designs.

Furthermore, when a charged capacitor is connected to a load, it discharges. During this discharge process, electrons flow in the reverse direction until the potential difference across the plates reaches zero. This ability to store and release electrical energy makes capacitors invaluable components in many electronic devices. By understanding how they work, engineers can design more effective and efficient electronic systems.