Coulomb's law

Coulomb's law is a function developed in the 1780s by physicist Charles-Augustin de Coulomb. It explains how strong the force will be between two electrostatic charges. Electrostatic means electric charges without any motion.

Direction[change]

Let's think of two electric charges existing in an empty space. If the two charges are opposite, (+) and (-) charges for example, they will attract each other. And if two charges are both the same, both (+) or both (-) for example, they will push each other. This is similar to how magnets act, as N and S attract each other, and as N and N, S and S push each other.

This is because electric charges make an electric field. If two fields exist in the same space at the same time, then the two fields exert (~ put) force on each other. The force they make on each other is called 'Coulomb's force' or the electrostatic force. Coulomb's law explains how big the force will be.

Scale[change]

Coulomb's law explains the scale between two electric charges. The scale of electrostatic force follows the function below.

<math>F = {K_c}\frac{q_1q_2}{r^2}</math>

Coulomb's law explains that the force scale F is relative to ratio of <math>q_1,q_2</math>,<math>\frac{1}{r^2}</math>.

<math>q_1</math> and <math>q_2</math> are the scales of each electric charge. <math>r</math> is the distance between the two electric charges. And <math>K_c</math> has a certain value. It does not change relative to <math>q_1</math>, <math>q_2</math> or <math>r</math>. While <math>{K_c}</math> remains constant, when multiples of <math>q_1</math> and <math>q_2</math> become bigger, the electrostatic force will also get bigger. When the distance <math>r</math> becomes bigger, the electrostatic force will become smaller by the ratio of <math>\frac{1}{r^2}</math>.
The exact size of <math>K_c</math> is <math> \begin{align} k_c &= 8.987\ 551\ 787\ \times 10^9 \\ \end{align} </math> <math> \approx 9 \times 10^9</math>N m² C⁻² (or m F⁻¹). This constant is called Coulomb's force constant or the electrostatic force constant.

Inverse-square law[change]

The relation between the force of pushing or pulling (F) and the distance between the particles (<math>r</math>) follows the Inverse-square Law. Inverse-square law means that when the distance <math>r</math> grows bigger, the force gets weaker by the ratio <math>\frac{1}{r^2}</math>. Gravitation, Electromagnetic radiation, and sound loudness also follow this law.

Related pages[change]

• Magnetic
• Electrostatic
• Coulomb, the SI unit of electric charge named after Charles-Augustin de Coulomb
• Inverse-square law, the physical law that shows the relation between distance and Intensity.

Other websites[change]

• Coulomb's Law on Project PHYSNET.
• A maze game for teaching Coulomb's Law Archived 2009-05-05 at the Wayback Machine