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What are the weak and strong forces in an atom?

What are the weak and strong forces in an atom?

The Strong Nuclear Force is an attractive force between protons and neutrons that keep the nucleus together and the Weak Nuclear Force is responsible for the radioactive decay of certain nuclei. It was realized that the strength of the two forces differed a lot.

What are the forces in an atom?

There are four forces (Electromagnetic, Strong, Weak, and Gravity) that are responsible for the behavior of the particles and thus keep the atom together.

Where does strong force exist in the atom?

If you consider that the nucleus of all atoms except hydrogen contain more than one proton, and each proton carries a positive charge, then why would the nuclei of these atoms stay together? The protons must feel a repulsive force from the other neighboring protons. This is where the strong nuclear force comes in.

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What is the weak force in an atom?

weak interaction, also called weak force or weak nuclear force, a fundamental force of nature that underlies some forms of radioactivity, governs the decay of unstable subatomic particles such as mesons, and initiates the nuclear fusion reaction that fuels the Sun.

What 3 forces hold an atom together?

The “fasteners” are called forces, and there are three different kinds of them at work inside the atom: electromagnetic force, strong nuclear force, and weak nuclear force.

What are the three main forces?

Physicists describe this interaction through the exchange of force-carrying particles called bosons. Specific kinds of bosons are responsible for three of the fundamental forces of nature — the weak force, electromagnetic force and strong force. In the weak force, the bosons are charged particles called W and Z bosons.

What is the strong force made of?

The strong force holds together quarks, the fundamental particles that make up the protons and neutrons of the atomic nucleus, and further holds together protons and neutrons to form atomic nuclei. As such it is responsible for the underlying stability of matter.