Fundamental Forces

All matters are made from atoms, all atoms are made from charged particles.

Charged particles only carry electrostatic force, therefore all forces must be an electrostatic force in nature. Same charged particles repel each other, opposite charged particles attract each other.

Strong and weak force are imaginary, never can be measured or calculated. If there is a strong force that can make protons stick together, there must be a strong force carrier, and it must be negatively charged. If there is a weak force, what is the force carrier? What is its charge? How can all atoms are neutrally charged?

Magnetic force is circular electric force carried by a magnet or circular current. Magnet's north pole carries concentric clockwise electric force, magnet's south pole carries concentric counterclockwise electric force. 

Coulomb's force and gravity are the most accurate measured forces in labs.

From Coulomb's Law, we can calculate the universal levitation force between matter 1 and matter 2 at distance R, which is the repulsion force between lines of sight electrons on the surface of matter 1 and matter 2. F=Ke x q1q2/R^2, q1, and q2 are the total charge of lines of sight electrons on matter 1 and matter 2.

Levity is 10^36 times stronger than gravity, how come masses are still attracting each other with gravity?

Because gravity is the total electrostatic force between  neutrally charged bodies.

All positive charged particles in matter 1 attract all negative charged particles in matter 2 and repel all positive charged particles, all negative charged particles in matter 1 attract all positive charged particles in matter 2 and repel all negative charged particles.

Due to electrostatic force induction between neutrally charges matters, the net force is always a weak attraction force we called gravity F=G x m1m2/R^2.

Gravity causes matter formation, keeps the planet in orbit. Levity cause all other natural phenomena. Such as quantum entanglement, induction, photoelectric effect, radiation and light.