LESSON: Coulomb's Law
LESSON: Coulomb's Law
Electric cars are becoming more popular. One large advantage for electric cars is the low cost of operation, which may become an ever bigger advantage as gas prices climb. Energy costs for electric cars average about one-third of the cost for gasoline engine cars, but they can only travel about 200 miles per charge at this point. These cars run using the science of electrical charges and forces.
Coulomb’s Law
The questions regarding the relationship between the electrical force, the size of the charge, and the separation between the charges were solved by Charles Coulomb in 1785. He determined that electrical force between two charges is directly related to the size of the charges and inversely proportional to the distance between the charges. This is known as Coulomb’s Law.
In this equation, q1 and q2 are the two charges, d is the distance between the two charges, andK is a constant of proportionality. Fe is the electric force, which occurs as a result of interactions between two charged particles. For the purpose of calculating electric forces, we assume all charge is a point charge, in which the entire charge of the particle is located in a massless point.
The SI unit of charge is the coulomb, C, which is the charge of electrons. The charge on a single electron is
. The charge on a single electron is known as the elementary charge. The charge on a proton is the same magnitude but opposite in sign. When the charges are measured in coulombs, the distance in meters, and the force in Newtons, the constant K is
.
The electrical force, like all forces, is a vector quantity. If the two charges being considered are both positive or both negative, the sign of the electrical force is positive and this force is repulsive. If the two charges are opposite in sign, the force will have a negative sign and the force is attractive.
Example Problem: Object A has a positive charge of . Object B has a positive charge of
. If the distance between A and B is 0.030 m, what is the force on A?
Solution:
The positive sign of the force indicates the force is repulsive. This makes sense, because both objects have a positive charge.
Example Problem: In the sketch below, the charges are , and
. Calculate the total force on q2.
Solution:
Since the two forces act in the same direction, their absolute values can be added together; the total force on q2 is 0.052 N towards q3.
Summary
- Coulomb determined that electrical force between two charges is directly related to the size of the charges and inversely proportional to the distance between the charges:
- The SI unit of charge is the coulomb, C, which is the charge of
electrons.
- The charge on a single electron is
and is known as the elementary charge.
- The electrical force is a vector quantity that is positive in repulsion and negative in attraction.
Practice
The following video covers Coulomb's Law. Use this resource to answer the questions that follow.
- What happens when like charges are placed near each other?
- What happens when opposite charged are placed near each other?
- What happens to the force of attraction if the charges are placed closer together?
After you have completed this part of the lesson, you can check the associated box on the main course page to mark it as complete