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    A more accurate picture than the 'solar system' model, according to quantum mechanics, is that the electrons exist in probability distributions, according to which they are not definitely in any specific place at any specific time, but have a greater likelihood of being in one place rather than another. This distribution may be visualised as a 'cloud' The electron cloud has a radius 10,000 times greater than the nucleus.
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    Bohr developed an improved model of the atom to explain the absorption and emission line spectrum that could not be understood by the Rutherford atom model. The Bohr atom is similar to Rutherford atom, except the electrons can only move in fixed or quantized orbits. That is, they can't orbit just anywhere, like planets around a star.

    The quantized orbits of the electrons allows for a simple explanation of the origin of photons, and the spectrum of light. Photons are produced by the transition of electrons downward in their orbits. A downward transition releases potential energy in the form of a light particle, a photon (as seen in an emission line). Likewise, photons could be absorbed by electrons (causing an absorption feature), and they move upward in their orbits.

    The two properties of the Bohr atom led to the development of quantum physics and the detailed understanding of the emission and absorption nature of spectra.

    Physics recognises four fundamental forces of nature:

    • gravitation, which was first adequately described by Isaac Newton;
    • electromagnetism, codified in the 19th century by Maxwell's equations;
    • the weak nuclear force, which is responsible for the decay of some subatomic particles;
    • and the strong nuclear force, which binds together atomic nuclei and is 1012 times stronger than the weak nuclear force.

    What are Subatomic Particles Made Of?

    In the 1930s, it seemed that protons, neutrons, and electrons were the smallest objects into which matter could be divided and so they were called "elementary particles". The word elementary then meant "having no smaller constituent parts", or "indivisible" -- the new "atoms", in the original sense.

    Later physicists discovered yet another layer of structure within the protons and neutrons. It is now known that protons and neutrons are made up quarks. Over 100 other "elementary" particles were discovered between 1930 and the present time. These elementary particles are all made from quarks and/or antiquarks.

    There are six quarks, but physicists usually talk about the three pairs of quarks: Up/Down, Charm/Strange, and Top/Bottom. For each of these quarks there is a corresponding antimatter-quark (anti-quark.) Quarks have the unusual characteristic of having fractional electric charge of either 2/3 or -1/3, unlike the -1 charge of an electron and the +1 charge of the proton.