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basic_notions:spin [2018/03/28 13:12] jakobadmin |
basic_notions:spin [2018/03/29 13:54] leot221 [Intuitive] |
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+ | One of the biggest discoveries in the last century was that elementary particles have spin, which is some kind of internal angular momentum. This was discovered by the famous [[experiments:stern-gerlach|Stern-Gerlach experiment]]. | ||
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+ | In abstract terms you can think about spin as a label that tells us how particles behave in experiments, exactly as the [[basic_notions:mass|mass]] or the electric [[basic_notions:charge|charge]]. For example, a particle with electric charge behaves different than one without in experiments and the same is true for spin. | ||
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+ | There are particles with spin $0$, particles with spin $\frac{1}{2}$ and particles with spin $1$. For each of these different particle types we have a different [[:equations|equation]]that describes their behavior. | ||
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* [[https://medium.com/starts-with-a-bang/spin-the-quantum-property-that-should-have-been-impossible-40bd52548b22|Spin: The Quantum Property That Should Have Been Impossible]] by Paul Halpern | * [[https://medium.com/starts-with-a-bang/spin-the-quantum-property-that-should-have-been-impossible-40bd52548b22|Spin: The Quantum Property That Should Have Been Impossible]] by Paul Halpern |