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What are the properties of weak nuclear force?

What are the properties of weak nuclear force?

The weak nuclear force (or just the weak force, or weak interaction) acts inside of individual nucleons, which means that it is even shorter ranged than the strong force. It is the force that allows protons to turn into neutrons and vice versa through beta decay.

Which best describes the weak nuclear force quizlet?

Which best describes the weak nuclear force? It is weaker than the gravitational force, with a greater range than the weak nuclear force.

What is the weakest force in the nucleus?

Ordered from strongest to weakest, the forces are 1) the strong nuclear force, 2) the electromagnetic force, 3) the weak nuclear force, and 4) gravity. If you take two protons and hold them very close together, they will exert several forces on each other.

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Is weak nuclear force attractive or repulsive?

The weak nuclear force is neither attractive or repulsive.

What are strong and weak nuclear forces?

Explanation: The strong nuclear force is responsible for binding protons and neutrons together in an atomic nucleus. The weak nuclear force is responsible for radioactive decay by being able to convert a proton into a neutron of vice versa.

Which of these statements is most likely correct about a weak nuclear force?

The correct answer is e. Weak nuclear forces exist inside nucleons and regulate their interconversion. Weak nuclear force is a very important force in fusion reactions when neutrons and protons are interconverted. This type of nuclear force is neither attractive nor repulsive.

What is weak nuclear force simple definition?

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.

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What is meant by saturation of nuclear forces?

Nuclei exhibit a phenomenon known as saturation: the volume of nuclei increases proportionally to the number of nucleons. This property suggests that the nuclear (central) force is of short range (a few fm) and strongly attractive at that range, which explains nuclear binding.