2.0 KiB
2.0 KiB
Electric Charge
- Charges come in two varieties, positive and negative.
- Net charge is the algebraic sum of an object's charges
- Protons and electrons have the same magnitude of charge (designated
1e; a unit, not Euler's number)- The SI Unit of charge is the Coulomb (abbreviated C)
- The smallest discrete quantity of charge is
\frac{1}{3}e.
- In an isolated system, the net charge will always remain constant.
Coulomb's Law
- Two charges will exert a force on each other along the line joining them.
- The magnitude of this force is proportional to the product of the charges and inversely proportional to the to the
\sqrt{dist}. - The equation to determine the force between two charges is as follows:
vec{F}_{12} = \vec{r}k\frac{q_1q_2}{r^2} $$- $\vec{r}$ is a unit vector pointing from charge 1 to charge 2 - $k$ is Coulomb's constant, or $8.99 * 10^9 \frac{Nm^2}{C^2}$ - $q_1$ and $q_2$ are the charges - $r$ is the distance between those charges - The resulting force will push away if $q_1q_2$ is *positive*, and attract if $q_1q_2$ is negative. This is where the rule "opposites attract, like repels" comes from - The magnitude of this force is proportional to the product of the charges and inversely proportional to the to the
- Coulomb's law only holds exactly true for point charges i.e a proton or electron.
The Superposition Principle
The superposition principle states that:
The net force acting on a point charge is equal to the sum of all individual forces.
This means that to find the net force acting on a single charge, you add up all of the individual forces acting on that charge.
The Electric Dipole
An electric dipole consists of two point charges of equal magnitude but opposite sign. Many molecules behave like dipoles.
- Electric dipole moment (
p) is defined as the product of the chargeqand the separationdbetween the two charges making up the dipole.p = qd - The dipole field at large distances decreases as the inverse cube of the distance. This is because the dipole has zero net charge.