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Occasionally I see the $\mp$ symbol, but I don't really know what it is for, except in conjunction with the $\pm$ symbol thus: $a \pm b \mp c$ which (I believe) means $a+b-c$ or $a-b+c$ (please correct me if I am wrong). Is there any other mathematical usage for the $\mp$ symbol, particularly on its own ?

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    It has the same meaning as $\pm$, but as you noted, when used in conjunction, they have "opposite" meanings2012-05-30
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    Sometimes it is used to indicate alternating signs in a series, starting with a minus, as in $x-\frac{x^3}{3!}+\frac{x^5}{5!} \mp \ldots$2012-05-30
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    I upvoted @marlu's comment, but then I got worried that it was not actually correct. The example is a little bit wrong, and when I tried to fix it I was not aple to support the point I thought was being made. All I could come up with were things like ${(x\pm y)}^n = x^n \pm x^{n-1}y + x^{n-2}y^2 \pm \cdots $ where there is already a $\pm$ outside to refer to.2012-05-30

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$\mp$ really only has a use when written in the same expressions as $\pm$.

The one that comes to mind is $\cos (\alpha \pm \beta) = \cos \alpha \cos \beta \mp \sin \alpha \sin \beta$.

But I suppose if you really wanted to, you could write things like $\sin(\alpha \mp \beta) = \sin \alpha \cos \beta \mp \cos \alpha \sin \beta$... if you really wanted to.

On a more humorous vein, it wouldn't surprise me if someone overloaded the symbol to have a different meaning too. Most likely someone like Conway (as in, Combinatorial Game Theory Conway, not Complex Analysis Conway), who thought $+_n$ was a perfectly good name for a state of a game (not an operation).

an aside

On a non-mathematical note, $\pm$ denotes an advantageous position for white in chess. $\mp$ denotes a position for black.

If we really go for it, $\mp$ looks like (干) wiki page, which means 'to dry' in Japanese and might mean 'to do' in Mandarin. $\pm$ looks like (士)wiki page, which might mean 'gentleman' in Japanese and is used in the symbols for doctorate and doctor's thesis.

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    Thank you, that is helpful. @marlu wrote in a comment to my OP that "Sometimes it is used to indicate alternating signs in a series, starting with a minus, as in $x-\frac{x^3}{3!}+\frac{x^5}{5!} \mp \ldots$" - is that not standard usage ?2012-05-30
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    I am a high-level chess player and have read dozens of chess books, and I have never once seen the notation $\pm$ or $\mp$ used in chess. Everywhere I have ever read, an advantage for white is written +/-, while an advantage for black is written -/+.2012-05-30
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    @BlueRaja-DannyPflughoeft: I've been an amateur chess player, I've read quite many books (with descriptive notation instead of algebraic!) and I'm pretty sure (not totally) of having seen $\pm$ and $\mp$2012-05-30
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    @leon: [Wikipedia seems to back that](http://en.wikipedia.org/wiki/Punctuation_%28chess%29#.2B.2F.E2.88.92_.28.E2.88.92.2F.2B.29:_Advantage). Perhaps we are just reading different books :) *(then again, wikipedia also makes a distinction between +/- and +-, a distinction I doubt is in wide use)*2012-05-30
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    @BlueRaja-DannyPflughoeft I can confirm with a specific example: Modern Chess Openings (http://www.amazon.com/Modern-Chess-Openings-15th-Edition/dp/0812936825) still uses the notation(s) in its most recent version.2012-06-19
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    @BlueRaja-DannyPflughoeft : it is somewhat surprising that a high-level chess player is unfamiliar with the *Chess Informant* notation (or am I a bit too old? :) ). In CI $\pm$ ($\mp$) stands for "White (Black) stands clearly better", whereas $+-$ ($-+$) stands for "White (Black) has a decisive advantage"2012-08-28
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You are correct; $\mp$ only makes sense in a formula that already has $\pm$.

One simple and useful example is that when $x$ is small, ${1\over{1\pm x}}\approx 1\mp x$.

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    Also $x^3 \pm y^3 = (x\pm y)(x^2 \mp xy + y^2)$2012-05-30
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Like the other answerer, I've only seen it used in the same line as a $\pm$, to mean "positive when the other term is negative and negative when the other term is positive." So, for instance, if we were to say

$\pm a = \mp b$

that would imply that

$ a = -b $

and

$ -a = b $