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- Newsgroups: sci.physics
- Path: sparky!uunet!haven.umd.edu!darwin.sura.net!spool.mu.edu!enterpoop.mit.edu!galois!riesz!jbaez
- From: jbaez@riesz.mit.edu (John C. Baez)
- Subject: Re: "SPIN," Micro- vs. Macroscopic . . . .
- Message-ID: <1993Jan8.013037.15149@galois.mit.edu>
- Sender: news@galois.mit.edu
- Nntp-Posting-Host: riesz
- Organization: MIT Department of Mathematics, Cambridge, MA
- References: <93007.141458CCB104@psuvm.psu.edu> <1ii9krINNivt@gap.caltech.edu>
- Date: Fri, 8 Jan 93 01:30:37 GMT
- Lines: 23
-
- In article <1ii9krINNivt@gap.caltech.edu> allenk@ugcs.caltech.edu (Allen Knutson) writes:
- ><CCB104@psuvm.psu.edu> inquires:
- >
- >>What's the difference between the spin of a globe or
- >>disk (e.g. beachball or frisbee), say, and the spin of an
- >>electron, photon, phonon, Bloch spin wave, proton, etc.?
- >
- >One's quantized and the other isn't (in an infinite universe).
- >Luckily, I can give (part of) a more useful answer.
-
- The rest of the answer looks fine as far as it goes (no disparaging
- intent here - there's a long way to go!) but it's worth noting that according
- to QM even the angular momentum of macroscopic objects like beachballs
- is quantized and comes in units of hbar. A full answer - which I don't
- have time to give - would include something on the difference between
- "orbital" angular momentum (which results from the spatial dependence of
- the wavefunction, i.e. something actually moving around in circles, and
- comes in integer units of hbar) and "spin" or "intrinsic" angular
- momentum (so-called because it is intrinsic to a given elementary
- particle, and which can come in integer or half-integer units of hbar).
-
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