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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.
A Gluon - the force-carrying particle of the strong nuclear force.
Gluon
The "strong force," or sometimes called the "strong nuclear force." This is the exchange of gluons between the protons and neutrons.
The strong nuclear force is an attractive force that counteracts (or rather balances-out) the repulsive coulomb force. Forces can be modelled by an exchange of particles between the involved bodies. I think the particle responsible for the strong nuclear force is the gluon. In a nucleus there should be a balance of protons and neutrons; too many protons and the repulsive force will be too high, too many neutrons and there won't be enough glue to go round.
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 exchange particle for the strong nuclear force is the pi meson. It has been produced by high energy collisions in particle accelerators, and detected by means of cloud chambers and bubble chambers. There is also very persuasive indirect evidence for the existence of the strong nuclear force, insofar as no atomic nuclei other than hydrogen could exist without that force, given that positively charged protons repel each other, and would not remain in close proximity in an atomic nucleus unless there was some force stronger than the electromagnetic force, holding them together.
The proton becomes a positron (charged particle without mass) which is then radioactively decayed. The same thing is beta capture which bands the nuclear strong force (a strong nuclear force) to decay the nucleus into a band of stability.
The strongest force known is called the "strong force" or "strong nuclear force".
The proton becomes a positron (charged particle without mass) which is then radioactively decayed. The same thing is beta capture which bands the nuclear strong force (a strong nuclear force) to decay the nucleus into a band of stability.
Nuclei are held together by the Strong Nuclear Force, which is mediated by the gluon. In particle physics, pion (short for pi meson) is the collective name for three subatomic particles: π0, π+ and π−. Pions are the lightest mesons and play an important role in explaining low-energy properties of the strong nuclear force.
Hideki Yukawa proposed the first theory of the strong force via meson exchange particles.