Namespaces
Variants
Actions

Difference between revisions of "User:Ivan"

From Encyclopedia of Mathematics
Jump to: navigation, search
m
m (+)
Line 3: Line 3:
 
== Some notes on style ==
 
== Some notes on style ==
 
* According to ISO 80000-2:2009, explicitly defined, context-independent functions, mathematical constants and well-defined operators are printed in roman (e.g., $\mathrm C^k_n$, $\mathrm dx$, $\mathrm e$<sup>$\mathrm i$<span style="font-family: serif;">π</span></sup>). Note, however, that physical constants are written in italics, e.g., $m_\mathrm e$ for the electron mass and $e$ for the elementary charge. It may be argued that $\mathrm P$ clearly stands for probability; on the other hand, there are different probability measures and $P$ may be used as a variable for such a measure (just as $p$ is often used as a variable for a prime number). ([https://www.iso.org/obp/ui/#iso:std:iso:3534:-1:ed-2:v2:en ISO 3534-1:2006] uses italic $P$, so I will stick to that.)
 
* According to ISO 80000-2:2009, explicitly defined, context-independent functions, mathematical constants and well-defined operators are printed in roman (e.g., $\mathrm C^k_n$, $\mathrm dx$, $\mathrm e$<sup>$\mathrm i$<span style="font-family: serif;">π</span></sup>). Note, however, that physical constants are written in italics, e.g., $m_\mathrm e$ for the electron mass and $e$ for the elementary charge. It may be argued that $\mathrm P$ clearly stands for probability; on the other hand, there are different probability measures and $P$ may be used as a variable for such a measure (just as $p$ is often used as a variable for a prime number). ([https://www.iso.org/obp/ui/#iso:std:iso:3534:-1:ed-2:v2:en ISO 3534-1:2006] uses italic $P$, so I will stick to that.)
* The standard document is pretty sloppily written. In the remark to item 2-13.2, a minus appears that looks rather like a hyphen. The spacing is inconsistent and $\mathrm{Ei}x$ as well as $\mathrm{li}x$ are found even though, according to the standard, there should be a thin space in such cases. $\bar x_a$ for the arithmetic mean (the subscript may be omitted) appears with an italic $a$ which barely makes any sense. (In the remarks row, there is talk about subscript h for the harmonic, subscript g for the geometric and subscript q or rms for the quadratic mean or root mean square; “h”, “g”, “q” and “rms” appear upright there, although the corresponding notations are not actually displayed.)
+
* The standard document is pretty sloppily written. In the remark to item 2-13.2, a minus appears that looks rather like a hyphen. The spacing is inconsistent and $\mathrm{Ei}x$ as well as $\mathrm{li}x$ are found even though, according to the standard, there should be a thin space in such cases. $\bar x_a$ for the arithmetic mean (the subscript may be omitted) appears with an italic $a$ which barely makes any sense. (In the remarks row, there is talk about subscript h for the harmonic, subscript g for the geometric and subscript q or rms for the quadratic mean or root mean square; “h”, “g”, “q” and “rms” appear upright there, although the corresponding notations are not actually displayed.) The Unicode and ISO/IEC 10646 name of the character U+2213 is <span style="text-transform: lowercase; font-variant: small-caps;">MINUS-OR-PLUS SIGN</span>, not <span style="text-transform: lowercase; font-variant: small-caps;">MINUS-PLUS SIGN</span>.
 
* In <cite>Writing Mathematical Expressions</cite>, Jukka Korpela states: “The standard says that the symbols $\sqrt{\color{white}a\!\!\!\!}$​$a$ and $\sqrt[n]a$ ‘should be avoided’. The exact meaning of this is not clear, and the standard itself uses the square root symbol in many examples.” In fact, the standard recommends to avoid $\sqrt{\color{white}a\!\!\!\!}$​$a$ and $^n\!\sqrt{\color{white}a\!\!\!\!}$​$a$. This clearly refers to notation <em>without a vinculum</em>.
 
* In <cite>Writing Mathematical Expressions</cite>, Jukka Korpela states: “The standard says that the symbols $\sqrt{\color{white}a\!\!\!\!}$​$a$ and $\sqrt[n]a$ ‘should be avoided’. The exact meaning of this is not clear, and the standard itself uses the square root symbol in many examples.” In fact, the standard recommends to avoid $\sqrt{\color{white}a\!\!\!\!}$​$a$ and $^n\!\sqrt{\color{white}a\!\!\!\!}$​$a$. This clearly refers to notation <em>without a vinculum</em>.
 
* Korpela: “Congruence notations use the equals sign ($=$). The identify [sic] sign ($\equiv$) can, however, be interpreted as an allowed alternative.” The standard does, in fact, use an equivalence sign and not an equals sign ($n\equiv k\bmod m$) – unfortunately, neither with extra large space before the $\mathrm{mod}$ nor with parentheses.
 
* Korpela: “Congruence notations use the equals sign ($=$). The identify [sic] sign ($\equiv$) can, however, be interpreted as an allowed alternative.” The standard does, in fact, use an equivalence sign and not an equals sign ($n\equiv k\bmod m$) – unfortunately, neither with extra large space before the $\mathrm{mod}$ nor with parentheses.

Revision as of 11:35, 29 November 2018

Ivan Panchenko

Some notes on style

  • According to ISO 80000-2:2009, explicitly defined, context-independent functions, mathematical constants and well-defined operators are printed in roman (e.g., $\mathrm C^k_n$, $\mathrm dx$, $\mathrm e$$\mathrm i$π). Note, however, that physical constants are written in italics, e.g., $m_\mathrm e$ for the electron mass and $e$ for the elementary charge. It may be argued that $\mathrm P$ clearly stands for probability; on the other hand, there are different probability measures and $P$ may be used as a variable for such a measure (just as $p$ is often used as a variable for a prime number). (ISO 3534-1:2006 uses italic $P$, so I will stick to that.)
  • The standard document is pretty sloppily written. In the remark to item 2-13.2, a minus appears that looks rather like a hyphen. The spacing is inconsistent and $\mathrm{Ei}x$ as well as $\mathrm{li}x$ are found even though, according to the standard, there should be a thin space in such cases. $\bar x_a$ for the arithmetic mean (the subscript may be omitted) appears with an italic $a$ which barely makes any sense. (In the remarks row, there is talk about subscript h for the harmonic, subscript g for the geometric and subscript q or rms for the quadratic mean or root mean square; “h”, “g”, “q” and “rms” appear upright there, although the corresponding notations are not actually displayed.) The Unicode and ISO/IEC 10646 name of the character U+2213 is MINUS-OR-PLUS SIGN, not MINUS-PLUS SIGN.
  • In Writing Mathematical Expressions, Jukka Korpela states: “The standard says that the symbols $\sqrt{\color{white}a\!\!\!\!}$​$a$ and $\sqrt[n]a$ ‘should be avoided’. The exact meaning of this is not clear, and the standard itself uses the square root symbol in many examples.” In fact, the standard recommends to avoid $\sqrt{\color{white}a\!\!\!\!}$​$a$ and $^n\!\sqrt{\color{white}a\!\!\!\!}$​$a$. This clearly refers to notation without a vinculum.
  • Korpela: “Congruence notations use the equals sign ($=$). The identify [sic] sign ($\equiv$) can, however, be interpreted as an allowed alternative.” The standard does, in fact, use an equivalence sign and not an equals sign ($n\equiv k\bmod m$) – unfortunately, neither with extra large space before the $\mathrm{mod}$ nor with parentheses.
How to Cite This Entry:
Ivan. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Ivan&oldid=43508