Capacitor Formulas

Your SweetHaven Online Interactive Tutor
Basic Electronics , Part 2
Elements of AC Electricity

Unit 8: Capacitance
Module 3: Capacitor Formulas

Before starting this module, you should be able to:

When you complete this module, you should be able to:

Define a coulomb of electrical charge.
Define capacitance in terms of two conductors and a dielectric.
Describe the meaning of charging capacitor and discharging a capacitor.

Cite the units of measure and common ranges of values for capacitance.
Describe how charge, capacitance, and voltage are related in a capacitor circuit.
Calculate the amount of charge on a capacitor, given the values of capacitance and voltage.
Define the term dielectric constant.
Describe how the common area of the plates of a capacitor affect its capacitance value.
Describe how the spacing of the plates of a capacitor affect its capacitance value.
Calculate the value of a capacitor, given the values for plate area, plate spacing, and the dielectric constant.

Practical Definitions for Capacitors

D E F I N I T I O N

Symbols, Units and Values

This is the schematic symbol for a capacitor.

The unit of capacitance is the farad, F
The math symbol for capacitance is C

Common ranges of values for capacitors are:

microfarad: mF = 1 –

10^-6F

nanofarad: nF = 1 –

10^-9F

picofarad: pF = 1 –

10^-12F

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Capacitor Charge, Value and Voltage

D E F I N I T I O N

Charge On a Capacitor

The amount of charge on a capacitor is given by:

Q = CV

where

Q = electrical charge in coloumbs, C

C = value of capacitance in farads, F

V = voltage across the plates of the capacitor

About Coulombs

The coulomb is a unit of measure for the quantity of electrons:

1 coulomb = 6.25 x 10¹⁸ electrons

The abbreviation for coulombs is the letter C. Don't be botherd by the fact that the math symbol for capacitance is also the letter C.

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How much charge is stored on the plates of a 100 nF capacitor when the voltage across the capacitor is 20 V?

Ans: 2 mC

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What Determines the Value of a Capacitor?

D E F I N I T I O N

Value Of a Capacitor
Given area and spacing of the plates

When you know the common area between the plates of a capacitor and the distance between them in meters, you can calculate the value of the capacitance this way:

C = 8.85 x 10^-12 (kA/s)

where

C = value of capacitance in farads, F

k = dielectric constant of the material separating the plates

A = common area between the plates in square meters, m²

s = spacing between the plates in meters, m

When you know the common area between the plates of a capacitor and the distance between them in inches:

C = 2.25 x 10^-7 (kA/s)

where

C = value of capacitance in farads, F

k = dielectric constant of the material separating the plates

A = common area between the plates in square inches, in²

s = spacing between the plates in inches, in

Dielectric Constant

The dielectric constant, k, is an expression of how much effect dielectric materials between the plates affect the value of a capacitor. The term has no units of measure. Here are a few examples:

Vacuum, air k = 1

Aluminum oxide k = 8

Ceramics k = 100 to 1000 or more

Glass k = 8

Polyethylene film k = 3

These Equations Also Show:

The value of a capacitor is proportional to the area shared by the plates.	Increasing the area of the plates increases the value of capacitance. Decreasing the area of the plates decreases the value of capacitance.
The value of a capacitor is inversely related to the spacing between the plates.	Increasing the spacing between the plates reduces the value of capacitance. Decreasing the spacing between the plates increases the value of capacitance.

E X A M P L E

Calculate the value of a capacitor where:

The common plate area is 0.5 square inches

The spacing between the plates is 0.01 inch

The dielectric material is air

Ans: 11.3 mF

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