Hence, we find that there is a force between these charges that is directly proportional to the magnitude of the charge of the objects and inversely proportional to distance between them. If one object has a certain charge we will call q1, and another has charge q2, then we can express the force from q1 on q2 by:
F=(1/(4πε0))*(q1*q2)/(r2)
Where r is the distance between the charges, and ε0 is a universal constant. See Physical constants.
The unit of charge is called a Coulomb?.
Note that this formula, called [Coulomb's Law]? is only fully accurate when the charges are static or moving slowly. When charges start moving quickly, the [Electric field]? undergoes a transformation described by Einstein's Theory of Relativity, and [Magnetic field]?s are produced that effect the amount of force on q1 and q2.
More to come...
--Carlos Moran
Natural forms of electricity: lightning?.
Humans use electricity. Electricity travels on conductors and is stopped by insulators. Some electrical devices that use the properties of electricty are called [electronic devices]?
Many animals are sensitivie to electric fields, some (eg sharks) more than others (eg people). A few generate their own electric fields, such as the [electric eel]?.