http://www.physicsbook.gatech.edu/api.php?action=feedcontributions&feedformat=atom&user=Hjohnston7Physics Book - User contributions [en]2026-05-12T01:33:49ZUser contributionsMediaWiki 1.42.7http://www.physicsbook.gatech.edu/index.php?title=Spin&diff=288Spin2015-10-28T19:27:06Z<p>Hjohnston7: Created page with "This page is a work in progress by --~~~~ == Overview == Spin is an intrinsic property that is carried by all elementary particles, composite particles, and atomic nuclei. It..."</p>
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<div>This page is a work in progress by --[[User:Hjohnston7|Hjohnston7]] ([[User talk:Hjohnston7|talk]]) 15:27, 28 October 2015 (EDT)<br />
== Overview ==<br />
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Spin is an intrinsic property that is carried by all elementary particles, composite particles, and atomic nuclei. It is a form of angular momentum, the other form being orbital angular momentum. It has never been observed directly, but is has been inferred from experimental data, namely the Stern-Gerlach Experiment.<br />
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Spin is usually thought of as a particle rotating about its own axis. This idea was proposed by Ralph Kronig, George Uhlenbeck, and Samuel Goudsmit and later expanded on by Wolfgang Pauli.<br />
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== Properties ==<br />
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'''Spin Quantum Number'''<br />
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The quantum spin number is a number that describes properties about the quantum spin. It is a positive number that is determined by s = n/2, with n being any non-negative number.<br />
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'''Madnitude'''<br />
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Since spin is a vector quantity, it has both a magnitude and a direction. All similar elementary particles have the same magnitude of spin angular momentum which is given by the spin quantum number, Ms. The quantum spin number is usually represented as a unitless value. This is due to the fact that is is expressed as a multiple of the Planck Constant. The actual unit of spin is the Joule-second.<br />
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'''Direction'''<br />
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Due to its quantum nature, it is difficult to measure the direction of spin. Actually, when measuring spin around the x-axis, spin information on the y and z-axes is destroyed. Therefore, it is easier to describe the direction more abstractly.<br />
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All possible spin directions are described by the expression "2s+1."<br />
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For a spin-1/2 particle, the amount of all possible directions is 2. These directions are -1/2 and 1/2. These states are described as "spin-up" and "spin-down." <br />
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For a spin-3/2 particle, the amount of possible directions is 4. These directions are -3/2, -1/2, 1/2, and 3/2.</div>Hjohnston7