Examples of permittivity in the following topics:
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- If it has a high permittivity, it also increases the capacitance for any given voltage.
- where ε is the permittivity, A is the area of the capacitor plates (assuming both are the same size and shape), and d is the thickness of the dielectric.
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- For a parallel-plate capacitor, capacitance (C) is related to dielectric permittivity (ε), surface area (A), and separation between the plates (d):
- Voltage (V) of a capacitor is related to distance between the plates, dielectric permittivity, conductor surface area, and charge (Q) on the plates:
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- Ultimately, in such a capacitor, q depends on the surface area (A) of the conductor plates, while V depends on the distance (d) between the plates and the permittivity (εr) of the dielectric between them.
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- Accordingly, capacitance is greatest in devices with high permittivity, large plate area, and minimal separation between the plates.
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- In this equation, k is equal to $\frac{1}{4\pi\varepsilon_0\varepsilon }$,where $\varepsilon_0$ is the permittivity of free space and $\varepsilon$ is the relative permittivity of the material in which the charges are immersed.
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- The field (E) points towards negative charges and away from positive charges, and from the microscopic perspective, is related to charge density (ρ) and vaccuum permittivity (ε0, or permittivity of free space) as:
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- where ε0 is the electric constant, otherwise known as permittivity of free space.
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- where r is the separation distance and ε0 is electric permittivity.