No it is the force holding the atomic nuclei together.
The strong nuclear force affects matter by "building" it. Matter as we generally know it is composed of atoms. Atoms are built from protons, neutrons and electrons, and protons and neutrons are built from quarks. It is the strong nuclear force that binds the quarks and gluons together to make up the protons and neutrons. This is a straight forward way to explain how the strong nuclear force (strong interaction) affects matter.
The strongest force known is called the "strong force" or "strong nuclear force".
The force between nucleons is called nuclear force.
The four elementary forces of nature are gravity, electromagnetism, the weak nuclear force, and the strong nuclear force. These forces govern the interactions between particles and are responsible for the behavior of matter in the universe.
The correct order of forces from weakest to strongest is gravitational force, electromagnetic force, weak nuclear force, and strong nuclear force. Gravitational force is the weakest force, while the strong nuclear force is the strongest.
a nuclear force that is stronger than normal
The primary forces of the universe are gravity, electromagnetism, the weak nuclear force, and the strong nuclear force. These forces govern the interactions between matter and energy at the most fundamental level.
gravitational force electrostatic force weak nuclear force strong nuclear force
The four fundamental forces of nature are gravity, the electromagnetic force, the strong force (strong nuclear force or strong interaction), and the weak force(weak nuclear force or weak interaction).
The opposite force to the strong nuclear force is the electromagnetic force. The strong nuclear force holds atomic nuclei together, while the electromagnetic force governs interactions between charged particles.
-- gravity -- electrostatic force -- weak nuclear force -- strong nuclear force
a nuclear force that is stronger than normal