A constant value is a value that can’t change. In other words, a value that persists and doesn’t change. In the case of the coulomb’s law constant, it is the constant ratio of the two quantities.
I have a theory about the coulombs law constant. Imagine one of your fingers is glued to your body, and you start playing with a rubber band. You can pull the rubber band apart but the constant value is still intact. This constant ratio is the same for all the fingers. This means that, if you have a constant ratio, you can pull apart parts of a rubber band to find out how many fingers you have. This is not a theory.
Coulomb’s law is also a constant ratio so it’s not a theory. It’s a simple math fact.
To check this out: As an example, let’s say we’re playing with a rubber band on our fingers. What if you have a rubber band around your finger? That’s the law of the game. The game is that you can pull apart the two rubber bands that are on your finger together. Now you can pull apart the rubber band. You can’t pull apart the band. So if you have a rubber band around your finger and you pull it apart, it’s still in force.
When you can’t pull apart the two rubber bands, the force of the rubber band on your finger is constant by the rule of law. It doesn’t matter how many rubber bands you have, it’s the same constant force.
Coulomb’s law is the law of the game. Its a simple rule that says that if you have a rubber band on your finger, you can pull it apart. If you have a band that is made from two rubber bands and you pull it apart, the force of the two rubber bands on your finger is the same constant force.
This is because the rubber bands are just two links in a rubberband puzzle. Yours are on a rubberband chain. If you pull one of them apart you can break that link (the one between your fingers). That is how the law of the game works.
This is my favorite law of the game, but there’s more. It’s called the law of the fourth link. When you have two rubber bands and you pull one of them apart, the other band is just a link. So if you pull one of them apart and you apply some force, then the force on the second rubber band is the same force that would apply if you would pull the first rubber band apart.
This is one of the ways we measure chain strength. If you pull one of them apart and you apply some force to the other, the force on the one that is still in the same position is the same force that would apply if you would pull one of them apart and apply some force to the other.
But if you get an immediate chain break, then you’re just pointing a finger at the chain that is still in the same position. This is another way to measure chain strength. Chain strength comes in different forms, so if you can pull one of the chains apart, then it means you’re pulling the other chain.