The strong nuclear force acts only on quarks and son it works only on protons and neutrons but not electrons
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 force that holds protons and neutrons together in an atomic nucleus is called the strong nuclear force.
The force between nucleons is called nuclear force.
Protons and neutrons are made up of smaller particles called quarks, which are held together by strong nuclear force. Electrons are elementary particles and do not have smaller constituents.
The strong nuclear force acts only on neutrons and protons in the nucleus of an atom. The opposite would be a weak nuclear force.
D. The strong nuclear force. This force is responsible for binding protons and neutrons together in the nucleus of an atom. Electromagnetic forces also play a role in holding electrons in orbit around the nucleus.
the strong nuclear force
The "strong force," or sometimes called the "strong nuclear force." This is the exchange of gluons between the protons and neutrons.
No. The strong nuclear force works through the exchange of a subatomic particle called a meson. Additionally, the strong nuclear force has to hold protons and neutrons together in the nucleus, so having a charge would have no effect on the neutrons.
Strong nuclear force is the force that keeps the protons and neutrons in the nucleus of an atom. Being stronger than the electromagnetic force at very close distances, the strong nuclear force prevents the protons from repelling. Even more fundamentally, the strong nuclear force binds quarks together, which are the fundamental constituents of protons and neutrons.
The strong nuclear force.
Here are the most obvious ones:Mass - both are approximately 1800 times the mass of an electron.Location in an atom - both are located in the nucleus, whereas the electron occupies orbital states around the nucleus.Coupling to the strong nuclear force - protons and neutrons "feel" the strong nuclear force, but electrons do not.Composite nature - protons and neutrons are composed of quarks bound together by the strong force. Electrons are believed to be fundamental particles with no internal structure.