Help:Displaying a formula: Difference between revisions

This help page is a how-to guide. It details processes or procedures of some aspect(s) of Wikipedia's norms and practices. It is not one of Wikipedia's policies or guidelines, and may reflect varying levels of consensus and vetting.

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Math is rendered in EMEA Support Wiki's by TeX using Mathoid. There are three methods for displaying formulas in mediawiki: raw HTML, HTML with math templates (abbreviated here as {{math}}), and a subset of LaTeX implemented with the HTML markup <math></math> (referred to as LaTeX in this article). Each method has some advantages and some disadvantages, which have evolved over the time with improvements of MediaWiki. The manual of style for math has not always evolved accordingly. So the how-to recommendations that appear below may differ from those of the manual of style.^{[1] [2] [3] [4]}

For example, the famous Einstein formula can be entered in raw HTML as {{nowrap|''E'' {{=}} ''mc''<sup>2</sup>}}, which is rendered as E = mc² (the template {{nowrap}} is here only for avoiding a line break inside the formula). With {{math}}, it can be entered as {{math|''E'' {{=}} ''mc''{{sup|2}}}}, which is rendered as E = mc². With LaTeX, it is entered as <math>E=mc^2</math>, and rendered as ${\displaystyle E=mc^{2}}$.

Use of raw HTML

Variable names and many symbols look very different with raw HTML and the other display methods. This may be confusing in the common case where several methods are used in the same article. Moreover, mathematicians who are used to reading and writing texts written with LaTeX often find the raw HTML rendering awful.

So, raw HTML should normally not be used for new content. However, raw HTML is still present in many mathematical articles. It is generally a good practice to convert it to {{math}} format, but coherency must be respected; that is, such a conversion must be done in a whole article, or at least in a whole section. Moreover, such a conversion must be identified as such in the edit summary, and it should be avoided making other changes in the same edit. This is for helping other users to identify changes that are possibly controversial (the "diff" of a conversion may be very large, and may hide other changes).

Converting raw HTML to {{math}} is rather simple: when the formula is enclosed with {{nowrap}}, it suffices to change "nowrap" into "math". However, if the formula contains an equal sign, one has to add 1= just before the formula for avoiding confusion with the template syntax; for example, {{math|1=''E'' = ''mc''{{sup|2}}}}. Also, vertical bars, if any, must either be replaced with {{!}} or avoided by using {{abs}}.

LaTeX vs. {{math}}

These two ways of writing mathematical formulas each have their advantages and disadvantages. They are both accepted by the manual of style. The rendering of variable names is very similar. So having a variable name displayed in the same paragraph with {{math}} and <math> is generally not a problem.

The disadvantages of LaTeX are the following: On some browser configurations, LaTeX inline formulas appear with a slight vertical misalignment, or with a font size that is slightly different from that of the surrounding text. This is not a problem with a block displayed formula. This is generally also not a real problem with inline formulas that exceed the normal line height (for example formulas with subscripts and superscripts). Also, the use of LaTeX in a piped link or in a section heading should appear in blue in the linked text or the table of content, but they do not. Moreover, links to section headings containing LaTeX formulas do not work always as expected. Finally, too many LaTeX formulas may significantly increase the processing time of a page. LaTeX formulas should be avoided in image captions, because when the image is clicked for a larger display, LaTeX in the caption will not render.

The disadvantages of {{math}} are the following: not all formulas can be displayed. While it is possible to render a complicated formula with {{math}}, it is often poorly rendered. Except for the most common ones, the rendering of non-alphanumeric Unicode symbols is often very poor and may depend on the browser configuration (misalignment, wrong size, ...). The spaces inside formulas are not managed automatically, and thus need some expertise for being rendered correctly. Except for short formulas, many more characters have to be typed for entering a formula, and the source is more difficult to read.

Therefore, the common practice of most members of WikiProject mathematics is the following:

• Use of {{mvar}} and {{math}} for isolated variables and very simple inline formulas
• Use of {{mvar}} and {{math}} for formulas in image captions, even if the rendering is mediocre
• Use of LaTeX for displayed formulas and more complicated inline formulas
• Use of LaTeX for formulas involving symbols that are not regularly rendered in Unicode (see wikipedia:MOS:BBB)
• Avoid formulas in section headings, and when this is a problem, use raw HTML (see Finite field for an example)

The choice between {{math}} and LaTeX depends on the editor. So converting from a format to another one must be done with stronger reasons than editor preference.

Display format of LaTeX

By default SVG images with non-visible MathML are generated. The text-only form of the LaTeX can be set via user preferences at My Preferences – Appearance – Math.

The hidden MathML can be used by screen readers and other assistive technology. To display the MathML in Firefox:

• Install the Native MathML extension
• Or copy its CSS rules to your Wikipedia user stylesheet.

In either case, you must have fonts that support MathML (see developer.mozilla.org) installed on your system. For copy-paste support in Firefox, you can also install MathML Copy.

Use of HTML templates

TeX markup is not the only way to render mathematical formulas. For simple inline formulas, the template {{math}} and its associated templates are often preferred. The following comparison table shows that similar results can be achieved with the two methods. See also wikipedia:Help:Special characters.

TeX syntax	TeX rendering		HTML syntax	HTML rendering
<math>\alpha</math>	${\displaystyle \alpha }$		{{math|''&alpha;''}}   or   {{mvar|&alpha;}}	α   or   α
<math>f(x) = x^2</math>	${\displaystyle f(x)=x^{2}}$		{{math|''f''(''x'') {{=}} ''x''<sup>2</sup>}}	f(x) = x2
<math>\{1,e,\pi\}</math>	${\displaystyle \{1,e,\pi \}}$		{{math|{{mset|1, ''e'', ''&pi;''}}}}	{1, e, π}
<math>|z + 1| \leq 2</math>	${\displaystyle |z+1|\leq 2}$		{{math|{{abs|''z'' + 1}} &le; 2}}	z + 1| ≤ 2

HTML entities

Though Unicode characters are generally preferred, sometimes HTML entities are needed to avoid problems with wiki syntax or confusion with other characters:

In the table below, the codes on the left produce the symbols on the right, but these symbols can also be entered directly in the wikitext either by typing them if they are available on the keyboard, by copy-pasting them, or by using menus below the edit windows. (When editing any Wikipedia page in a desktop web browser, use the "Insert" pulldown menu immediately below the article text, or the "Special characters" menu immediately above the article text.) Normally, lowercase Greek letters should be entered in italics, that is, enclosed between two single quotes ('').

α β γ δ ε ζ
η θ ι κ λ μ ν
ξ ο π ρ σ ς
τ υ φ χ ψ ω

Γ Δ Θ Λ Ξ Π
Σ Φ Ψ Ω

∫ ∑ ∏ − ± ∞
≈ ∝ = ≡ ≠ ≤ ≥
× · ⋅ ÷ ∂ ′ ″
∇ ‰ ° ∴ ∅

∈ ∉ ∩ ∪ ⊂ ⊃ ⊆ ⊇
¬ ∧ ∨ ∃ ∀
⇒ ⇔ → ↔ ↑ ↓
ℵ - – —

Superscripts and subscripts

Spacing

To avoid line-wrapping in the middle of a formula, use {{math}}. If necessary, a non-breaking space ( ) can be inserted with " ".

Typically whitespace should be a regular space ( ) or none at all. In rare circumstances, such as where one character overlaps another due to one being in italics, a thin space can be added with {{thin space}}.

Fractions

Fractions sometimes occur in regular text, and need proper presentation. Only a limited number are covered in the UTF-8 repertoire: they are ¼ ½ ¾ ⅓ ⅔ ⅕ ⅖ ⅗ ⅘ ⅙ ⅚ ⅛ ⅜ ⅝ ⅞

A number of these fractions have been added to the characters bar at the bottom of the edit page. The remainder have been left off since they do not render in the font used for Wikisource. They will appear here if your computer has Lucida Sans Unicode. They are overlarge compared with the regular font size.

Other fractions can be done with keyboard figures (like 11/16, 27/32, et cetera), but they are intrusive, being overlarge. More elegant fractions can be made by HTML coding, such as using the superscript/subscript markup.

Thus, 11/16 will be displayed by <span style="vertical-align:super;font-size:x-small">11</span>/<span style="vertical-align:sub;font-size:x-small">16</span>

Template:frac will produce ¹¹⁄₁₆;

{{fs70|{{frac|11|16}}}} fits inline: ¹¹⁄₁₆

Template:sfrac will produce vertical fractions fitting in with the Mediawiki typeface. Ex. 4 3/4, 67/83726;

{{fs70|{{sfrac|4|3}}}} fits inline: 4/3

Fractions can also be made with the TeX, but they do not match the Mediawiki typeface.

General

Spaces and newlines are mostly ignored. Apart from function and operator names, as is customary in mathematics for variables, letters are in italics; digits are not. For other text, (like variable labels) to avoid being rendered in italics like variables, use \mbox or \mathrm: <math>\mbox{abc}</math> gives ${\displaystyle {\mbox{abc}}}$

Line breaks help keep the wikitext clear, for instance, a line break after each term or matrix row.

Size

There are some possibilities, to change the size of the formulas. For example, fractions can be made smaller using \tfrac instead of \frac.

${\displaystyle {\frac {10}{100}}}$ becomes ${\displaystyle {\tfrac {10}{100}}}$.

In general, formulas can be made even smaller if \scriptstyle is employed:

${\displaystyle {\sqrt {1-{\frac {v^{2}}{c^{2}}}}}}$ becomes ${\displaystyle \scriptstyle {\sqrt {1-{\frac {v^{2}}{c^{2}}}}}}$.

Special characters

${\displaystyle {\text{abcdefghijklmnopqrstuvwxyzàáâãäåæçčďèéěêëìíîïňñòóôõöřšť÷øùúůûüýÿž}}}$
${\displaystyle {\text{abcdefghijklmnopqrstuvwxyzàáâãäåæçčèéêëìíîïñòóôõö÷øùúûüýÿ}}\,}$

Or, using \mbox instead of \text, pretty much the same:

${\displaystyle {\mbox{abcdefghijklmnopqrstuvwxyzàáâãäåæçčďèéěêëìíîïňñòóôõöřšť÷øùúůûüýÿž}}}$
${\displaystyle {\mbox{abcdefghijklmnopqrstuvwxyzàáâãäåæçčèéêëìíîïñòóôõö÷øùúûüýÿ}}\,}$

But \mbox{ð} and \mbox{þ}: ${\displaystyle {\mbox{ð}}}$ ${\displaystyle {\mbox{þ}}}$ Using \text{} ${\displaystyle {\text{ð}}}$ ${\displaystyle {\text{þ}}}$

For producing special characters without math tags, see Special characters.

Comparison: &alpha; gives "α" <math>\alpha</math> gives ${\displaystyle \alpha }$, ("&" and ";" vs. "\", in this case the same code word "alpha"); &radic;2 gives "√2" <math>\sqrt{2}</math> gives ${\displaystyle {\sqrt {2}}}$ (the same difference as above, but also another code word, "radic" vs. "sqrt"; in TeX braces); &radic;(1-''e''&sup2;) gives √(1-e²), <math>\sqrt{1-e^2}</math> gives ${\displaystyle {\sqrt {1-e^{2}}}}$, (parentheses vs. braces, "''e''" vs. "e", "&sup2;" vs. "^2").

The following symbols are reserved characters that either have a special meaning under LaTeX or are unavailable in all the fonts.

# $ % ^ & _ { } ~ \

Some of these can be entered with a backslash in front:

<math>\# \$ \% \& \_ \{ \} </math> gives ${\displaystyle \#\$\%\&\_\{\}}$

Others have special names:

<math> \hat{} \quad \tilde{} \quad \backslash </math> gives ${\displaystyle {\hat {}}\quad {\tilde {}}\quad \backslash }$

Functions, symbols, special characters

Accents & diacritics
\dot{a}, \ddot{a}, \acute{a}, \grave{a}	${\displaystyle {\dot {a}},{\ddot {a}},{\acute {a}},{\grave {a}}\!}$
\check{a}, \breve{a}, \tilde{a}, \bar{a}	${\displaystyle {\check {a}},{\breve {a}},{\tilde {a}},{\bar {a}}\!}$
\hat{a}, \widehat{a}, \vec{a}	${\displaystyle {\hat {a}},{\widehat {a}},{\vec {a}}\!}$
Standard numerical functions
\exp_a b = a^b, \exp b = e^b, 10^m	${\displaystyle \exp _{a}b=a^{b},\exp b=e^{b},10^{m}\!}$
\ln c, \lg d = \log e, \log_{10} f	${\displaystyle \ln c,\lg d=\log e,\log _{10}f\!}$
\sin a, \cos b, \tan c, \cot d, \sec e, \csc f	${\displaystyle \sin a,\cos b,\tan c,\cot d,\sec e,\csc f\!}$
\arcsin h, \arccos i, \arctan j	${\displaystyle \arcsin h,\arccos i,\arctan j\!}$
\sinh k, \cosh l, \tanh m, \coth n	${\displaystyle \sinh k,\cosh l,\tanh m,\coth n\!}$
\operatorname{sh}\,k, \operatorname{ch}\,l, \operatorname{th}\,m, \operatorname{coth}\,n	${\displaystyle \operatorname {sh} \,k,\operatorname {ch} \,l,\operatorname {th} \,m,\operatorname {coth} \,n\!}$
\operatorname{argsh}\,o, \operatorname{argch}\,p, \operatorname{argth}\,q	${\displaystyle \operatorname {argsh} \,o,\operatorname {argch} \,p,\operatorname {argth} \,q\!}$
\sgn r, \left\vert s \right\vert	${\displaystyle \operatorname {sgn} r,\left\vert s\right\vert \!}$
\min(x,y), \max(x,y)	${\displaystyle \min(x,y),\max(x,y)\!}$
Bounds
\min x, \max y, \inf s, \sup t	${\displaystyle \min x,\max y,\inf s,\sup t\!}$
\lim u, \liminf v, \limsup w	${\displaystyle \lim u,\liminf v,\limsup w\!}$
\dim p, \deg q, \det m, \ker\phi	${\displaystyle \dim p,\deg q,\det m,\ker \phi \!}$
Projections
\Pr j, \hom l, \lVert z \rVert, \arg z	${\displaystyle \Pr j,\hom l,\lVert z\rVert ,\arg z\!}$
Differentials and derivatives
dt, \operatorname{d}\!t, \partial t, \nabla\psi	${\displaystyle dt,\operatorname {d} \!t,\partial t,\nabla \psi \!}$
dy/dx, \operatorname{d}\!y/\operatorname{d}\!x, {dy \over dx}, {\operatorname{d}\!y\over\operatorname{d}\!x}, {\partial^2\over\partial x_1\partial x_2}y	${\displaystyle dy/dx,\operatorname {d} \!y/\operatorname {d} \!x,{dy \over dx},{\operatorname {d} \!y \over \operatorname {d} \!x},{\partial ^{2} \over \partial x_{1}\partial x_{2}}y\!}$
\prime, \backprime, f^\prime, f', f'', f^{(3)}, \dot y, \ddot y	${\displaystyle \prime ,\backprime ,f^{\prime },f',f'',f^{(3)}\!,{\dot {y}},{\ddot {y}}}$
Letter-like symbols or constants
\infty, \aleph, \complement, \backepsilon, \eth, \Finv, \hbar	${\displaystyle \infty ,\aleph ,\complement ,\backepsilon ,\eth ,\Finv ,\hbar \!}$
\Im, \imath, \jmath, \Bbbk, \ell, \mho, \wp, \Re, \circledS	${\displaystyle \Im ,\imath ,\jmath ,\Bbbk ,\ell ,\mho ,\wp ,\Re ,\circledS \!}$
Modular arithmetic
s_k \equiv 0 \pmod{m}	${\displaystyle s_{k}\equiv 0{\pmod {m}}\!}$
a\,\bmod\,b	${\displaystyle a\,{\bmod {\,}}b\!}$
\gcd(m, n), \operatorname{lcm}(m, n)	${\displaystyle \gcd(m,n),\operatorname {lcm} (m,n)}$
\mid, \nmid, \shortmid, \nshortmid	${\displaystyle \mid ,\nmid ,\shortmid ,\nshortmid \!}$
Radicals
\surd, \sqrt{2}, \sqrt[n]{}, \sqrt[3]{x^3+y^3 \over 2}	${\displaystyle \surd ,{\sqrt {2}},{\sqrt[{n}]{}},{\sqrt[{3}]{x^{3}+y^{3} \over 2}}\!}$
Operators
+, -, \pm, \mp, \dotplus	${\displaystyle +,-,\pm ,\mp ,\dotplus \!}$
\times, \div, \divideontimes, /, \backslash	${\displaystyle \times ,\div ,\divideontimes ,/,\backslash \!}$
\cdot, * \ast, \star, \circ, \bullet	${\displaystyle \cdot ,*\ast ,\star ,\circ ,\bullet \!}$
\boxplus, \boxminus, \boxtimes, \boxdot	${\displaystyle \boxplus ,\boxminus ,\boxtimes ,\boxdot \!}$
\oplus, \ominus, \otimes, \oslash, \odot	${\displaystyle \oplus ,\ominus ,\otimes ,\oslash ,\odot \!}$
\circleddash, \circledcirc, \circledast	${\displaystyle \circleddash ,\circledcirc ,\circledast \!}$
\bigoplus, \bigotimes, \bigodot	${\displaystyle \bigoplus ,\bigotimes ,\bigodot \!}$
Sets
\{ \}, \O \empty \emptyset, \varnothing	${\displaystyle \{\},\emptyset \emptyset \emptyset ,\varnothing \!}$
\in, \notin \not\in, \ni, \not\ni	${\displaystyle \in ,\notin \not \in ,\ni ,\not \ni \!}$
\cap, \Cap, \sqcap, \bigcap	${\displaystyle \cap ,\Cap ,\sqcap ,\bigcap \!}$
\cup, \Cup, \sqcup, \bigcup, \bigsqcup, \uplus, \biguplus	${\displaystyle \cup ,\Cup ,\sqcup ,\bigcup ,\bigsqcup ,\uplus ,\biguplus \!}$
\setminus, \smallsetminus, \times	${\displaystyle \setminus ,\smallsetminus ,\times \!}$
\subset, \Subset, \sqsubset	${\displaystyle \subset ,\Subset ,\sqsubset \!}$
\supset, \Supset, \sqsupset	${\displaystyle \supset ,\Supset ,\sqsupset \!}$
\subseteq, \nsubseteq, \subsetneq, \varsubsetneq, \sqsubseteq	${\displaystyle \subseteq ,\nsubseteq ,\subsetneq ,\varsubsetneq ,\sqsubseteq \!}$
\supseteq, \nsupseteq, \supsetneq, \varsupsetneq, \sqsupseteq	${\displaystyle \supseteq ,\nsupseteq ,\supsetneq ,\varsupsetneq ,\sqsupseteq \!}$
\subseteqq, \nsubseteqq, \subsetneqq, \varsubsetneqq	${\displaystyle \subseteqq ,\nsubseteqq ,\subsetneqq ,\varsubsetneqq \!}$
\supseteqq, \nsupseteqq, \supsetneqq, \varsupsetneqq	${\displaystyle \supseteqq ,\nsupseteqq ,\supsetneqq ,\varsupsetneqq \!}$
Relations
=, \ne, \neq, \equiv, \not\equiv	${\displaystyle =,\neq ,\neq ,\equiv ,\not \equiv \!}$
\doteq, \doteqdot, \overset{\underset{\mathrm{def}}{}}{=}, :=	${\displaystyle \doteq ,\doteqdot ,{\overset {\underset {\mathrm {def} }{}}{=}},:=\!}$
\sim, \nsim, \backsim, \thicksim, \simeq, \backsimeq, \eqsim, \cong, \ncong	${\displaystyle \sim ,\nsim ,\backsim ,\thicksim ,\simeq ,\backsimeq ,\eqsim ,\cong ,\ncong \!}$
\approx, \thickapprox, \approxeq, \asymp, \propto, \varpropto	${\displaystyle \approx ,\thickapprox ,\approxeq ,\asymp ,\propto ,\varpropto \!}$
<, \nless, \ll, \not\ll, \lll, \not\lll, \lessdot	${\displaystyle <,\nless ,\ll ,\not \ll ,\lll ,\not \lll ,\lessdot \!}$
>, \ngtr, \gg, \not\gg, \ggg, \not\ggg, \gtrdot	${\displaystyle >,\ngtr ,\gg ,\not \gg ,\ggg ,\not \ggg ,\gtrdot \!}$
\le, \leq, \lneq, \leqq, \nleq, \nleqq, \lneqq, \lvertneqq	${\displaystyle \leq ,\leq ,\lneq ,\leqq ,\nleq ,\nleqq ,\lneqq ,\lvertneqq \!}$
\ge, \geq, \gneq, \geqq, \ngeq, \ngeqq, \gneqq, \gvertneqq	${\displaystyle \geq ,\geq ,\gneq ,\geqq ,\ngeq ,\ngeqq ,\gneqq ,\gvertneqq \!}$
\lessgtr, \lesseqgtr, \lesseqqgtr, \gtrless, \gtreqless, \gtreqqless	${\displaystyle \lessgtr ,\lesseqgtr ,\lesseqqgtr ,\gtrless ,\gtreqless ,\gtreqqless \!}$
\leqslant, \nleqslant, \eqslantless	${\displaystyle \leqslant ,\nleqslant ,\eqslantless \!}$
\geqslant, \ngeqslant, \eqslantgtr	${\displaystyle \geqslant ,\ngeqslant ,\eqslantgtr \!}$
\lesssim, \lnsim, \lessapprox, \lnapprox	${\displaystyle \lesssim ,\lnsim ,\lessapprox ,\lnapprox \!}$
\gtrsim, \gnsim, \gtrapprox, \gnapprox	${\displaystyle \gtrsim ,\gnsim ,\gtrapprox ,\gnapprox \,}$
\prec, \nprec, \preceq, \npreceq, \precneqq	${\displaystyle \prec ,\nprec ,\preceq ,\npreceq ,\precneqq \!}$
\succ, \nsucc, \succeq, \nsucceq, \succneqq	${\displaystyle \succ ,\nsucc ,\succeq ,\nsucceq ,\succneqq \!}$
\preccurlyeq, \curlyeqprec	${\displaystyle \preccurlyeq ,\curlyeqprec \,}$
\succcurlyeq, \curlyeqsucc	${\displaystyle \succcurlyeq ,\curlyeqsucc \,}$
\precsim, \precnsim, \precapprox, \precnapprox	${\displaystyle \precsim ,\precnsim ,\precapprox ,\precnapprox \,}$
\succsim, \succnsim, \succapprox, \succnapprox	${\displaystyle \succsim ,\succnsim ,\succapprox ,\succnapprox \,}$
Geometric
\parallel, \nparallel, \shortparallel, \nshortparallel	${\displaystyle \parallel ,\nparallel ,\shortparallel ,\nshortparallel \!}$
\perp, \angle, \sphericalangle, \measuredangle, 45^\circ	${\displaystyle \perp ,\angle ,\sphericalangle ,\measuredangle ,45^{\circ }\!}$
\Box, \blacksquare, \diamond, \Diamond \lozenge, \blacklozenge, \bigstar	${\displaystyle \Box ,\blacksquare ,\diamond ,\Diamond \lozenge ,\blacklozenge ,\bigstar \!}$
\bigcirc, \triangle, \bigtriangleup, \bigtriangledown	${\displaystyle \bigcirc ,\triangle ,\bigtriangleup ,\bigtriangledown \!}$
\vartriangle, \triangledown	${\displaystyle \vartriangle ,\triangledown \!}$
\blacktriangle, \blacktriangledown, \blacktriangleleft, \blacktriangleright	${\displaystyle \blacktriangle ,\blacktriangledown ,\blacktriangleleft ,\blacktriangleright \!}$
Logic
\forall, \exists, \nexists	${\displaystyle \forall ,\exists ,\nexists \!}$
\therefore, \because, \And	${\displaystyle \therefore ,\because ,\And \!}$
\or \lor \vee, \curlyvee, \bigvee	${\displaystyle \lor \lor \vee ,\curlyvee ,\bigvee \!}$
\and \land \wedge, \curlywedge, \bigwedge	${\displaystyle \land \land \wedge ,\curlywedge ,\bigwedge \!}$
\bar{q}, \bar{abc}, \overline{q}, \overline{abc}, \lnot \neg, \not\operatorname{R}, \bot, \top	${\displaystyle {\bar {q}},{\bar {abc}},{\overline {q}},{\overline {abc}},\!}$ ${\displaystyle \lnot \neg ,\not \operatorname {R} ,\bot ,\top \!}$
\vdash \dashv, \vDash, \Vdash, \models	${\displaystyle \vdash \dashv ,\vDash ,\Vdash ,\models \!}$
\Vvdash \nvdash \nVdash \nvDash \nVDash	${\displaystyle \Vvdash \nvdash \nVdash \nvDash \nVDash \!}$
\ulcorner \urcorner \llcorner \lrcorner	${\displaystyle \ulcorner \urcorner \llcorner \lrcorner \,}$
Arrows
\Rrightarrow, \Lleftarrow	${\displaystyle \Rrightarrow ,\Lleftarrow \!}$
\Rightarrow, \nRightarrow, \Longrightarrow \implies	${\displaystyle \Rightarrow ,\nRightarrow ,\Longrightarrow \implies \!}$
\Leftarrow, \nLeftarrow, \Longleftarrow	${\displaystyle \Leftarrow ,\nLeftarrow ,\Longleftarrow \!}$
\Leftrightarrow, \nLeftrightarrow, \Longleftrightarrow \iff	${\displaystyle \Leftrightarrow ,\nLeftrightarrow ,\Longleftrightarrow \iff \!}$
\Uparrow, \Downarrow, \Updownarrow	${\displaystyle \Uparrow ,\Downarrow ,\Updownarrow \!}$
\rightarrow \to, \nrightarrow, \longrightarrow	${\displaystyle \rightarrow \to ,\nrightarrow ,\longrightarrow \!}$
\leftarrow \gets, \nleftarrow, \longleftarrow	${\displaystyle \leftarrow \gets ,\nleftarrow ,\longleftarrow \!}$
\leftrightarrow, \nleftrightarrow, \longleftrightarrow	${\displaystyle \leftrightarrow ,\nleftrightarrow ,\longleftrightarrow \!}$
\uparrow, \downarrow, \updownarrow	${\displaystyle \uparrow ,\downarrow ,\updownarrow \!}$
\nearrow, \swarrow, \nwarrow, \searrow	${\displaystyle \nearrow ,\swarrow ,\nwarrow ,\searrow \!}$
\mapsto, \longmapsto	${\displaystyle \mapsto ,\longmapsto \!}$
\rightharpoonup \rightharpoondown \leftharpoonup \leftharpoondown \upharpoonleft \upharpoonright \downharpoonleft \downharpoonright \rightleftharpoons \leftrightharpoons	${\displaystyle \rightharpoonup \rightharpoondown \leftharpoonup \leftharpoondown \upharpoonleft \upharpoonright \downharpoonleft \downharpoonright \rightleftharpoons \leftrightharpoons \,\!}$
\curvearrowleft \circlearrowleft \Lsh \upuparrows \rightrightarrows \rightleftarrows \rightarrowtail \looparrowright	${\displaystyle \curvearrowleft \circlearrowleft \Lsh \upuparrows \rightrightarrows \rightleftarrows \rightarrowtail \looparrowright \,\!}$
\curvearrowright \circlearrowright \Rsh \downdownarrows \leftleftarrows \leftrightarrows \leftarrowtail \looparrowleft	${\displaystyle \curvearrowright \circlearrowright \Rsh \downdownarrows \leftleftarrows \leftrightarrows \leftarrowtail \looparrowleft \,\!}$
\hookrightarrow \hookleftarrow \multimap \leftrightsquigarrow \rightsquigarrow \twoheadrightarrow \twoheadleftarrow	${\displaystyle \hookrightarrow \hookleftarrow \multimap \leftrightsquigarrow \rightsquigarrow \twoheadrightarrow \twoheadleftarrow \!}$
Special
\amalg \P \S \% \dagger \ddagger \ldots \cdots	${\displaystyle \amalg \P \S \%\dagger \ddagger \ldots \cdots \!}$
\smile \frown \wr \triangleleft \triangleright	${\displaystyle \smile \frown \wr \triangleleft \triangleright \!}$
\diamondsuit, \heartsuit, \clubsuit, \spadesuit, \Game, \flat, \natural, \sharp	${\displaystyle \diamondsuit ,\heartsuit ,\clubsuit ,\spadesuit ,\Game ,\flat ,\natural ,\sharp \!}$
Unsorted (new stuff)
\diagup \diagdown \centerdot \ltimes \rtimes \leftthreetimes \rightthreetimes	${\displaystyle \diagup \diagdown \centerdot \ltimes \rtimes \leftthreetimes \rightthreetimes \!}$
\eqcirc \circeq \triangleq \bumpeq \Bumpeq \doteqdot \risingdotseq \fallingdotseq	${\displaystyle \eqcirc \circeq \triangleq \bumpeq \Bumpeq \doteqdot \risingdotseq \fallingdotseq \!}$
\intercal \barwedge \veebar \doublebarwedge \between \pitchfork	${\displaystyle \intercal \barwedge \veebar \doublebarwedge \between \pitchfork \!}$
\vartriangleleft \ntriangleleft \vartriangleright \ntriangleright	${\displaystyle \vartriangleleft \ntriangleleft \vartriangleright \ntriangleright \!}$
\trianglelefteq \ntrianglelefteq \trianglerighteq \ntrianglerighteq	${\displaystyle \trianglelefteq \ntrianglelefteq \trianglerighteq \ntrianglerighteq \!}$

For a little more semantics on these symbols, see the brief TeX Cookbook.

Larger expressions

Subscripts, superscripts, integrals

Feature	Syntax	How it looks rendered
Superscript	a^2	${\displaystyle a^{2}}$
Subscript	a_2	${\displaystyle a_{2}}$
Grouping	10^{30} a^{2+2}	${\displaystyle 10^{30}a^{2+2}}$
	a_{i,j} b_{f'}	${\displaystyle a_{i,j}b_{f'}}$
Combining sub & super without and with horizontal separation	x_2^3	${\displaystyle x_{2}^{3}}$
	{x_2}^3	${\displaystyle {x_{2}}^{3}\,\!}$
Super super	10^{10^{8}}	${\displaystyle 10^{10^{8}}}$
Preceding and/or additional sub & super	\sideset{_1^2}{_3^4}\prod_a^b	${\displaystyle \sideset {_{1}^{2}}{_{3}^{4}}\prod _{a}^{b}}$
	{}_1^2\!\Omega_3^4	${\displaystyle {}_{1}^{2}\!\Omega _{3}^{4}}$
Stacking	\overset{\alpha}{\omega}	${\displaystyle {\overset {\alpha }{\omega }}}$
	\underset{\alpha}{\omega}	${\displaystyle {\underset {\alpha }{\omega }}}$
	\overset{\alpha}{\underset{\gamma}{\omega}}	${\displaystyle {\overset {\alpha }{\underset {\gamma }{\omega }}}}$
	\stackrel{\alpha}{\omega}	${\displaystyle {\stackrel {\alpha }{\omega }}}$
Derivatives	x', y'', f', f''	${\displaystyle x',y'',f',f''}$
	x^\prime, y^{\prime\prime}	${\displaystyle x^{\prime },y^{\prime \prime }}$
Derivative dots	\dot{x}, \ddot{x}	${\displaystyle {\dot {x}},{\ddot {x}}}$
Underlines, overlines, vectors	\hat a \ \bar b \ \vec c	${\displaystyle {\hat {a}}\ {\bar {b}}\ {\vec {c}}}$
	\overrightarrow{a b} \ \overleftarrow{c d} \ \widehat{d e f}	${\displaystyle {\overrightarrow {ab}}\ {\overleftarrow {cd}}\ {\widehat {def}}}$
	\overline{g h i} \ \underline{j k l}	${\displaystyle {\overline {ghi}}\ {\underline {jkl}}}$
Arc (workaround)	\overset{\frown} {AB}	${\displaystyle {\overset {\frown }{AB}}}$
Arrows	A \xleftarrow{n+\mu-1} B \xrightarrow[T]{n\pm i-1} C	${\displaystyle A\xleftarrow {n+\mu -1} B{\xrightarrow[{T}]{n\pm i-1}}C}$
Overbraces	\overbrace{ 1+2+\cdots+100 }^{5050}	${\displaystyle \overbrace {1+2+\cdots +100} ^{5050}}$
Underbraces	\underbrace{ a+b+\cdots+z }_{26}	${\displaystyle \underbrace {a+b+\cdots +z} _{26}}$
Sum	\sum_{k=1}^N k^2	${\displaystyle \sum _{k=1}^{N}k^{2}}$
Sum (force \textstyle)	\textstyle \sum_{k=1}^N k^2	${\displaystyle \textstyle \sum _{k=1}^{N}k^{2}}$
Sum in a fraction (default \textstyle)	\frac{\sum_{k=1}^N k^2}{a}	${\displaystyle {\frac {\sum _{k=1}^{N}k^{2}}{a}}}$
Sum in a fraction (force \displaystyle)	\frac{\displaystyle \sum_{k=1}^N k^2}{a}	${\displaystyle {\frac {\displaystyle \sum _{k=1}^{N}k^{2}}{a}}}$
Sum in a fraction (alternative limits style)	\frac{\sum\limits^{^N}_{k=1} k^2}{a}	${\displaystyle {\frac {\sum \limits _{k=1}^{^{N}}k^{2}}{a}}}$
Product	\prod_{i=1}^N x_i	${\displaystyle \prod _{i=1}^{N}x_{i}}$
Product (force \textstyle)	\textstyle \prod_{i=1}^N x_i	${\displaystyle \textstyle \prod _{i=1}^{N}x_{i}}$
Coproduct	\coprod_{i=1}^N x_i	${\displaystyle \coprod _{i=1}^{N}x_{i}}$
Coproduct (force \textstyle)	\textstyle \coprod_{i=1}^N x_i	${\displaystyle \textstyle \coprod _{i=1}^{N}x_{i}}$
Limit	\lim_{n \to \infty}x_n	${\displaystyle \lim _{n\to \infty }x_{n}}$
Limit (force \textstyle)	\textstyle \lim_{n \to \infty}x_n	${\displaystyle \textstyle \lim _{n\to \infty }x_{n}}$
Integral	\int\limits_{1}^{3}\frac{e^3/x}{x^2}\, dx	${\displaystyle \int \limits _{1}^{3}{\frac {e^{3}/x}{x^{2}}}\,dx}$
Integral (alternative limits style)	\int_{1}^{3}\frac{e^3/x}{x^2}\, dx	${\displaystyle \int _{1}^{3}{\frac {e^{3}/x}{x^{2}}}\,dx}$
Integral (force \textstyle)	\textstyle \int\limits_{-N}^{N} e^x\, dx	${\displaystyle \textstyle \int \limits _{-N}^{N}e^{x}\,dx}$
Integral (force \textstyle, alternative limits style)	\textstyle \int_{-N}^{N} e^x\, dx	${\displaystyle \textstyle \int _{-N}^{N}e^{x}\,dx}$
Double integral	\iint\limits_D \, dx\,dy	${\displaystyle \iint \limits _{D}\,dx\,dy}$
Triple integral	\iiint\limits_E \, dx\,dy\,dz	${\displaystyle \iiint \limits _{E}\,dx\,dy\,dz}$
Quadruple integral	\iiiint\limits_F \, dx\,dy\,dz\,dt	${\displaystyle \iiiint \limits _{F}\,dx\,dy\,dz\,dt}$
Line or path integral	\int_{(x,y)\in C} x^3\, dx + 4y^2\, dy	${\displaystyle \int _{(x,y)\in C}x^{3}\,dx+4y^{2}\,dy}$
Closed line or path integral	\oint_{(x,y)\in C} x^3\, dx + 4y^2\, dy	${\displaystyle \oint _{(x,y)\in C}x^{3}\,dx+4y^{2}\,dy}$
Intersections	\bigcap_{i=_1}^n E_i	${\displaystyle \bigcap _{i=_{1}}^{n}E_{i}}$
Unions	\bigcup_{i=_1}^n E_i	${\displaystyle \bigcup _{i=_{1}}^{n}E_{i}}$

Fractions, matrices, multilines

Feature	Syntax	How it looks rendered
Fractions	\frac{1}{2}=0.5	${\displaystyle {\frac {1}{2}}=0.5}$
Small ("text style") fractions	\tfrac{1}{2} = 0.5	${\displaystyle {\tfrac {1}{2}}=0.5}$
Large ("display style") fractions	\dfrac{k}{k-1} = 0.5	${\displaystyle {\dfrac {k}{k-1}}=0.5}$
Mixture of large and small fractions	\dfrac{ \tfrac{1}{2}[1-(\tfrac{1}{2})^n] }{ 1-\tfrac{1}{2} } = s_n	${\displaystyle {\dfrac {{\tfrac {1}{2}}[1-({\tfrac {1}{2}})^{n}]}{1-{\tfrac {1}{2}}}}=s_{n}}$
Continued fractions (note the difference in formatting)	\cfrac{2}{ c + \cfrac{2}{ d + \cfrac{1}{2} } } = a \qquad \dfrac{2}{ c + \dfrac{2}{ d + \dfrac{1}{2} } } = a	${\displaystyle {\cfrac {2}{c+{\cfrac {2}{d+{\cfrac {1}{2}}}}}}=a\qquad {\dfrac {2}{c+{\dfrac {2}{d+{\dfrac {1}{2}}}}}}=a}$
Binomial coefficients	\binom{n}{k}	${\displaystyle {\binom {n}{k}}}$
Small ("text style") binomial coefficients	\tbinom{n}{k}	${\displaystyle {\tbinom {n}{k}}}$
Large ("display style") binomial coefficients	\dbinom{n}{k}	${\displaystyle {\dbinom {n}{k}}}$
Matrices	\begin{matrix} x & y \\ z & v \end{matrix}	${\displaystyle {\begin{matrix}x&y\\z&v\end{matrix}}}$
	\begin{vmatrix} x & y \\ z & v \end{vmatrix}	${\displaystyle {\begin{vmatrix}x&y\\z&v\end{vmatrix}}}$
	\begin{Vmatrix} x & y \\ z & v \end{Vmatrix}	${\displaystyle {\begin{Vmatrix}x&y\\z&v\end{Vmatrix}}}$
	\begin{bmatrix} 0 & \cdots & 0 \\ \vdots & \ddots & \vdots \\ 0 & \cdots & 0 \end{bmatrix}	${\displaystyle {\begin{bmatrix}0&\cdots &0\\\vdots &\ddots &\vdots \\0&\cdots &0\end{bmatrix}}}$
	\begin{Bmatrix} x & y \\ z & v \end{Bmatrix}	${\displaystyle {\begin{Bmatrix}x&y\\z&v\end{Bmatrix}}}$
	\begin{pmatrix} x & y \\ z & v \end{pmatrix}	${\displaystyle {\begin{pmatrix}x&y\\z&v\end{pmatrix}}}$
	\bigl( \begin{smallmatrix} a&b\\ c&d \end{smallmatrix} \bigr)	${\displaystyle {\bigl (}{\begin{smallmatrix}a&b\\c&d\end{smallmatrix}}{\bigr )}}$
Arrays	\begin{array}{|c|c||c|} a & b & S \\ \hline 0&0&1\\ 0&1&1\\ 1&0&1\\ 1&1&0 \end{array}	${\displaystyle {\begin{array}{|c|c||c|}a&b&S\\\hline 0&0&1\\0&1&1\\1&0&1\\1&1&0\end{array}}}$
Cases	f(n) = \begin{cases} n/2, & \mbox{if }n\mbox{ is even} \\ 3n+1, & \mbox{if }n\mbox{ is odd} \end{cases}	${\displaystyle f(n)={\begin{cases}n/2,&{\mbox{if }}n{\mbox{ is even}}\\3n+1,&{\mbox{if }}n{\mbox{ is odd}}\end{cases}}}$
System of equations	\begin{cases} 3x + 5y + z &= 1 \\ 7x - 2y + 4z &= 2 \\ -6x + 3y + 2z &= 3 \end{cases}	${\displaystyle {\begin{cases}3x+5y+z&=1\\7x-2y+4z&=2\\-6x+3y+2z&=3\end{cases}}}$
Breaking up a long expression so it wraps when necessary	<math>f(x) = \sum_{n=0}^\infty a_n x^n</math> <math>= a_0 + a_1x + a_2x^2 + \cdots</math>	${\displaystyle f(x)=\sum _{n=0}^{\infty }a_{n}x^{n}}$ ${\displaystyle =a_{0}+a_{1}x+a_{2}x^{2}+\cdots }$
Multiline equations	\begin{align} f(x) & = (a+b)^2 \\ & = a^2+2ab+b^2 \end{align}	${\displaystyle {\begin{aligned}f(x)&=(a+b)^{2}\\&=a^{2}+2ab+b^{2}\end{aligned}}}$
	\begin{alignat}{2} f(x) & = (a-b)^2 \\ & = a^2-2ab+b^2 \end{alignat}	${\displaystyle {\begin{alignedat}{2}f(x)&=(a-b)^{2}\\&=a^{2}-2ab+b^{2}\end{alignedat}}}$
Multiline equations with aligment specified (left, center, right)	\begin{array}{lcl} z & = & a \\ f(x,y,z) & = & x + y + z \end{array}	${\displaystyle {\begin{array}{lcl}z&=&a\\f(x,y,z)&=&x+y+z\end{array}}}$
	\begin{array}{lcr} z & = & a \\ f(x,y,z) & = & x + y + z \end{array}	${\displaystyle {\begin{array}{lcr}z&=&a\\f(x,y,z)&=&x+y+z\end{array}}}$

Parenthesizing big expressions, brackets, bars

Feature !! Syntax !! How it looks rendered
Bad	( \frac{1}{2} )	${\displaystyle ({\frac {1}{2}})}$
Good	\left ( \frac{1}{2} \right )	${\displaystyle \left({\frac {1}{2}}\right)}$

You can use various delimiters with \left and \right:

Feature	Syntax	How it looks rendered
Parentheses	\left ( \frac{a}{b} \right )	${\displaystyle \left({\frac {a}{b}}\right)}$
Brackets	\left [ \frac{a}{b} \right ] \quad \left \lbrack \frac{a}{b} \right \rbrack	${\displaystyle \left[{\frac {a}{b}}\right]\quad \left\lbrack {\frac {a}{b}}\right\rbrack }$
Braces (note the backslash before the braces in the code)	\left \{ \frac{a}{b} \right \} \quad \left \lbrace \frac{a}{b} \right \rbrace	${\displaystyle \left\{{\frac {a}{b}}\right\}\quad \left\lbrace {\frac {a}{b}}\right\rbrace }$
Angle brackets	\left \langle \frac{a}{b} \right \rangle	${\displaystyle \left\langle {\frac {a}{b}}\right\rangle }$
Bars and double bars (note: "bars" provide the absolute value function)	\left | \frac{a}{b} \right \vert \left \Vert \frac{c}{d} \right \|	${\displaystyle \left|{\frac {a}{b}}\right\vert \left\Vert {\frac {c}{d}}\right\|}$
Floor and ceiling functions:	\left \lfloor \frac{a}{b} \right \rfloor \left \lceil \frac{c}{d} \right \rceil	${\displaystyle \left\lfloor {\frac {a}{b}}\right\rfloor \left\lceil {\frac {c}{d}}\right\rceil }$
Slashes and backslashes	\left / \frac{a}{b} \right \backslash	${\displaystyle \left/{\frac {a}{b}}\right\backslash }$
Up, down and up-down arrows	\left \uparrow \frac{a}{b} \right \downarrow \quad \left \Uparrow \frac{a}{b} \right \Downarrow \quad \left \updownarrow \frac{a}{b} \right \Updownarrow	${\displaystyle \left\uparrow {\frac {a}{b}}\right\downarrow \quad \left\Uparrow {\frac {a}{b}}\right\Downarrow \quad \left\updownarrow {\frac {a}{b}}\right\Updownarrow }$
Delimiters can be mixed, as long as \left and \right are both used	\left [ 0,1 \right ) \left \langle \psi \right |	${\displaystyle \left[0,1\right)}$ ${\displaystyle \left\langle \psi \right|}$
Use \left. or \right. if you don't want a delimiter to appear:	\left . \frac{A}{B} \right \} \to X	${\displaystyle \left.{\frac {A}{B}}\right\}\to X}$
Size of the delimiters	\big( \Big( \bigg( \Bigg( \dots \Bigg] \bigg] \Big] \big]	${\displaystyle {\big (}{\Big (}{\bigg (}{\Bigg (}\dots {\Bigg ]}{\bigg ]}{\Big ]}{\big ]}}$
	\big\{ \Big\{ \bigg\{ \Bigg\{ \dots \Bigg\rangle \bigg\rangle \Big\rangle \big\rangle	${\displaystyle {\big \{}{\Big \{}{\bigg \{}{\Bigg \{}\dots {\Bigg \rangle }{\bigg \rangle }{\Big \rangle }{\big \rangle }}$
	\big| \Big| \bigg| \Bigg| \dots \Bigg\| \bigg\| \Big\| \big\|	${\displaystyle {\big |}{\Big |}{\bigg |}{\Bigg |}\dots {\Bigg \|}{\bigg \|}{\Big \|}{\big \|}}$
	\big\lfloor \Big\lfloor \bigg\lfloor \Bigg\lfloor \dots \Bigg\rceil \bigg\rceil \Big\rceil \big\rceil	${\displaystyle {\big \lfloor }{\Big \lfloor }{\bigg \lfloor }{\Bigg \lfloor }\dots {\Bigg \rceil }{\bigg \rceil }{\Big \rceil }{\big \rceil }}$
	\big\uparrow \Big\uparrow \bigg\uparrow \Bigg\uparrow \dots \Bigg\Downarrow \bigg\Downarrow \Big\Downarrow \big\Downarrow	${\displaystyle {\big \uparrow }{\Big \uparrow }{\bigg \uparrow }{\Bigg \uparrow }\dots {\Bigg \Downarrow }{\bigg \Downarrow }{\Big \Downarrow }{\big \Downarrow }}$
	\big\updownarrow \Big\updownarrow \bigg\updownarrow \Bigg\updownarrow \dots \Bigg\Updownarrow \bigg\Updownarrow \Big\Updownarrow \big\Updownarrow	${\displaystyle {\big \updownarrow }{\Big \updownarrow }{\bigg \updownarrow }{\Bigg \updownarrow }\dots {\Bigg \Updownarrow }{\bigg \Updownarrow }{\Big \Updownarrow }{\big \Updownarrow }}$
	\big / \Big / \bigg / \Bigg / \dots \Bigg\backslash \bigg\backslash \Big\backslash \big\backslash	${\displaystyle {\big /}{\Big /}{\bigg /}{\Bigg /}\dots {\Bigg \backslash }{\bigg \backslash }{\Big \backslash }{\big \backslash }}$

Alphabets and typefaces

Texvc cannot render arbitrary Unicode characters. Those it can handle can be entered by the expressions below. For others, such as Cyrillic, they can be entered as Unicode or HTML entities in running text, but cannot be used in displayed formulas.

Greek alphabet
\Alpha \Beta \Gamma \Delta \Epsilon \Zeta	${\displaystyle \mathrm {A} \mathrm {B} \Gamma \Delta \mathrm {E} \mathrm {Z} \,}$
\Eta \Theta \Iota \Kappa \Lambda \Mu	${\displaystyle \mathrm {H} \Theta \mathrm {I} \mathrm {K} \Lambda \mathrm {M} \,}$
\Nu \Xi \Omicron \Pi \Rho \Sigma \Tau	${\displaystyle \mathrm {N} \Xi O\Pi \mathrm {P} \Sigma \mathrm {T} \,}$
\Upsilon \Phi \Chi \Psi \Omega	${\displaystyle \Upsilon \Phi \mathrm {X} \Psi \Omega \,}$
\alpha \beta \gamma \delta \epsilon \zeta	${\displaystyle \alpha \beta \gamma \delta \epsilon \zeta \,}$
\eta \theta \iota \kappa \lambda \mu	${\displaystyle \eta \theta \iota \kappa \lambda \mu \,}$
\nu \xi \omicron \pi \rho \sigma \tau	${\displaystyle \nu \xi \pi o\rho \sigma \tau \,}$
\upsilon \phi \chi \psi \omega	${\displaystyle \upsilon \phi \chi \psi \omega \,}$
\varepsilon \digamma \vartheta \varkappa	${\displaystyle \varepsilon \digamma \vartheta \varkappa \,}$
\varpi \varrho \varsigma \varphi	${\displaystyle \varpi \varrho \varsigma \varphi \,}$
Blackboard Bold/Scripts
\mathbb{A} \mathbb{B} \mathbb{C} \mathbb{D} \mathbb{E} \mathbb{F} \mathbb{G}	${\displaystyle \mathbb {A} \mathbb {B} \mathbb {C} \mathbb {D} \mathbb {E} \mathbb {F} \mathbb {G} \,}$
\mathbb{H} \mathbb{I} \mathbb{J} \mathbb{K} \mathbb{L} \mathbb{M}	${\displaystyle \mathbb {H} \mathbb {I} \mathbb {J} \mathbb {K} \mathbb {L} \mathbb {M} \,}$
\mathbb{N} \mathbb{O} \mathbb{P} \mathbb{Q} \mathbb{R} \mathbb{S} \mathbb{T}	${\displaystyle \mathbb {N} \mathbb {O} \mathbb {P} \mathbb {Q} \mathbb {R} \mathbb {S} \mathbb {T} \,}$
\mathbb{U} \mathbb{V} \mathbb{W} \mathbb{X} \mathbb{Y} \mathbb{Z}	${\displaystyle \mathbb {U} \mathbb {V} \mathbb {W} \mathbb {X} \mathbb {Y} \mathbb {Z} \,}$
\C \N \Q \R \Z	${\displaystyle \mathbb {C} \mathbb {N} \mathbb {Q} \mathbb {R} \mathbb {Z} }$
boldface (vectors)
\mathbf{A} \mathbf{B} \mathbf{C} \mathbf{D} \mathbf{E} \mathbf{F} \mathbf{G}	${\displaystyle \mathbf {A} \mathbf {B} \mathbf {C} \mathbf {D} \mathbf {E} \mathbf {F} \mathbf {G} \,}$
\mathbf{H} \mathbf{I} \mathbf{J} \mathbf{K} \mathbf{L} \mathbf{M}	${\displaystyle \mathbf {H} \mathbf {I} \mathbf {J} \mathbf {K} \mathbf {L} \mathbf {M} \,}$
\mathbf{N} \mathbf{O} \mathbf{P} \mathbf{Q} \mathbf{R} \mathbf{S} \mathbf{T}	${\displaystyle \mathbf {N} \mathbf {O} \mathbf {P} \mathbf {Q} \mathbf {R} \mathbf {S} \mathbf {T} \,}$
\mathbf{U} \mathbf{V} \mathbf{W} \mathbf{X} \mathbf{Y} \mathbf{Z}	${\displaystyle \mathbf {U} \mathbf {V} \mathbf {W} \mathbf {X} \mathbf {Y} \mathbf {Z} \,}$
\mathbf{a} \mathbf{b} \mathbf{c} \mathbf{d} \mathbf{e} \mathbf{f} \mathbf{g}	${\displaystyle \mathbf {a} \mathbf {b} \mathbf {c} \mathbf {d} \mathbf {e} \mathbf {f} \mathbf {g} \,}$
\mathbf{h} \mathbf{i} \mathbf{j} \mathbf{k} \mathbf{l} \mathbf{m}	${\displaystyle \mathbf {h} \mathbf {i} \mathbf {j} \mathbf {k} \mathbf {l} \mathbf {m} \,}$
\mathbf{n} \mathbf{o} \mathbf{p} \mathbf{q} \mathbf{r} \mathbf{s} \mathbf{t}	${\displaystyle \mathbf {n} \mathbf {o} \mathbf {p} \mathbf {q} \mathbf {r} \mathbf {s} \mathbf {t} \,}$
\mathbf{u} \mathbf{v} \mathbf{w} \mathbf{x} \mathbf{y} \mathbf{z}	${\displaystyle \mathbf {u} \mathbf {v} \mathbf {w} \mathbf {x} \mathbf {y} \mathbf {z} \,}$
\mathbf{0} \mathbf{1} \mathbf{2} \mathbf{3} \mathbf{4}	${\displaystyle \mathbf {0} \mathbf {1} \mathbf {2} \mathbf {3} \mathbf {4} \,}$
\mathbf{5} \mathbf{6} \mathbf{7} \mathbf{8} \mathbf{9}	${\displaystyle \mathbf {5} \mathbf {6} \mathbf {7} \mathbf {8} \mathbf {9} \,}$
Boldface (greek)
\boldsymbol{\Alpha} \boldsymbol{\Beta} \boldsymbol{\Gamma} \boldsymbol{\Delta} \boldsymbol{\Epsilon} \boldsymbol{\Zeta}	${\displaystyle {\boldsymbol {\mathrm {A} }}{\boldsymbol {\mathrm {B} }}{\boldsymbol {\Gamma }}{\boldsymbol {\Delta }}{\boldsymbol {\mathrm {E} }}{\boldsymbol {\mathrm {Z} }}\,}$
\boldsymbol{\Eta} \boldsymbol{\Theta} \boldsymbol{\Iota} \boldsymbol{\Kappa} \boldsymbol{\Lambda} \boldsymbol{\Mu}	${\displaystyle {\boldsymbol {\mathrm {H} }}{\boldsymbol {\Theta }}{\boldsymbol {\mathrm {I} }}{\boldsymbol {\mathrm {K} }}{\boldsymbol {\Lambda }}{\boldsymbol {\mathrm {M} }}\,}$
\boldsymbol{\Nu} \boldsymbol{\Xi} \boldsymbol{\Pi} \boldsymbol{\Rho} \boldsymbol{\Sigma} \boldsymbol{\Tau}	${\displaystyle {\boldsymbol {\mathrm {N} }}{\boldsymbol {\Xi }}{\boldsymbol {\Pi }}{\boldsymbol {\mathrm {P} }}{\boldsymbol {\Sigma }}{\boldsymbol {\mathrm {T} }}\,}$
\boldsymbol{\Upsilon} \boldsymbol{\Phi} \boldsymbol{\Chi} \boldsymbol{\Psi} \boldsymbol{\Omega}	${\displaystyle {\boldsymbol {\Upsilon }}{\boldsymbol {\Phi }}{\boldsymbol {\mathrm {X} }}{\boldsymbol {\Psi }}{\boldsymbol {\Omega }}\,}$
\boldsymbol{\alpha} \boldsymbol{\beta} \boldsymbol{\gamma} \boldsymbol{\delta} \boldsymbol{\epsilon} \boldsymbol{\zeta}	${\displaystyle {\boldsymbol {\alpha }}{\boldsymbol {\beta }}{\boldsymbol {\gamma }}{\boldsymbol {\delta }}{\boldsymbol {\epsilon }}{\boldsymbol {\zeta }}\,}$
\boldsymbol{\eta} \boldsymbol{\theta} \boldsymbol{\iota} \boldsymbol{\kappa} \boldsymbol{\lambda} \boldsymbol{\mu}	${\displaystyle {\boldsymbol {\eta }}{\boldsymbol {\theta }}{\boldsymbol {\iota }}{\boldsymbol {\kappa }}{\boldsymbol {\lambda }}{\boldsymbol {\mu }}\,}$
\boldsymbol{\nu} \boldsymbol{\xi} \boldsymbol{\pi} \boldsymbol{\rho} \boldsymbol{\sigma} \boldsymbol{\tau}	${\displaystyle {\boldsymbol {\nu }}{\boldsymbol {\xi }}{\boldsymbol {\pi }}{\boldsymbol {\rho }}{\boldsymbol {\sigma }}{\boldsymbol {\tau }}\,}$
\boldsymbol{\upsilon} \boldsymbol{\phi} \boldsymbol{\chi} \boldsymbol{\psi} \boldsymbol{\omega}	${\displaystyle {\boldsymbol {\upsilon }}{\boldsymbol {\phi }}{\boldsymbol {\chi }}{\boldsymbol {\psi }}{\boldsymbol {\omega }}\,}$
\boldsymbol{\varepsilon} \boldsymbol{\digamma} \boldsymbol{\vartheta} \boldsymbol{\varkappa}	${\displaystyle {\boldsymbol {\varepsilon }}{\boldsymbol {\digamma }}{\boldsymbol {\vartheta }}{\boldsymbol {\varkappa }}\,}$
\boldsymbol{\varpi} \boldsymbol{\varrho} \boldsymbol{\varsigma} \boldsymbol{\varphi}	${\displaystyle {\boldsymbol {\varpi }}{\boldsymbol {\varrho }}{\boldsymbol {\varsigma }}{\boldsymbol {\varphi }}\,}$
Italics
\mathit{A} \mathit{B} \mathit{C} \mathit{D} \mathit{E} \mathit{F} \mathit{G}	${\displaystyle {\mathit {A}}{\mathit {B}}{\mathit {C}}{\mathit {D}}{\mathit {E}}{\mathit {F}}{\mathit {G}}\,}$
\mathit{H} \mathit{I} \mathit{J} \mathit{K} \mathit{L} \mathit{M}	${\displaystyle {\mathit {H}}{\mathit {I}}{\mathit {J}}{\mathit {K}}{\mathit {L}}{\mathit {M}}\,}$
\mathit{N} \mathit{O} \mathit{P} \mathit{Q} \mathit{R} \mathit{S} \mathit{T}	${\displaystyle {\mathit {N}}{\mathit {O}}{\mathit {P}}{\mathit {Q}}{\mathit {R}}{\mathit {S}}{\mathit {T}}\,}$
\mathit{U} \mathit{V} \mathit{W} \mathit{X} \mathit{Y} \mathit{Z}	${\displaystyle {\mathit {U}}{\mathit {V}}{\mathit {W}}{\mathit {X}}{\mathit {Y}}{\mathit {Z}}\,}$
\mathit{a} \mathit{b} \mathit{c} \mathit{d} \mathit{e} \mathit{f} \mathit{g}	${\displaystyle {\mathit {a}}{\mathit {b}}{\mathit {c}}{\mathit {d}}{\mathit {e}}{\mathit {f}}{\mathit {g}}\,}$
\mathit{h} \mathit{i} \mathit{j} \mathit{k} \mathit{l} \mathit{m}	${\displaystyle {\mathit {h}}{\mathit {i}}{\mathit {j}}{\mathit {k}}{\mathit {l}}{\mathit {m}}\,}$
\mathit{n} \mathit{o} \mathit{p} \mathit{q} \mathit{r} \mathit{s} \mathit{t}	${\displaystyle {\mathit {n}}{\mathit {o}}{\mathit {p}}{\mathit {q}}{\mathit {r}}{\mathit {s}}{\mathit {t}}\,}$
\mathit{u} \mathit{v} \mathit{w} \mathit{x} \mathit{y} \mathit{z}	${\displaystyle {\mathit {u}}{\mathit {v}}{\mathit {w}}{\mathit {x}}{\mathit {y}}{\mathit {z}}\,}$
\mathit{0} \mathit{1} \mathit{2} \mathit{3} \mathit{4}	${\displaystyle {\mathit {0}}{\mathit {1}}{\mathit {2}}{\mathit {3}}{\mathit {4}}\,}$
\mathit{5} \mathit{6} \mathit{7} \mathit{8} \mathit{9}	${\displaystyle {\mathit {5}}{\mathit {6}}{\mathit {7}}{\mathit {8}}{\mathit {9}}\,}$
Roman typeface
\mathrm{A} \mathrm{B} \mathrm{C} \mathrm{D} \mathrm{E} \mathrm{F} \mathrm{G}	${\displaystyle \mathrm {A} \mathrm {B} \mathrm {C} \mathrm {D} \mathrm {E} \mathrm {F} \mathrm {G} \,}$
\mathrm{H} \mathrm{I} \mathrm{J} \mathrm{K} \mathrm{L} \mathrm{M}	${\displaystyle \mathrm {H} \mathrm {I} \mathrm {J} \mathrm {K} \mathrm {L} \mathrm {M} \,}$
\mathrm{N} \mathrm{O} \mathrm{P} \mathrm{Q} \mathrm{R} \mathrm{S} \mathrm{T}	${\displaystyle \mathrm {N} \mathrm {O} \mathrm {P} \mathrm {Q} \mathrm {R} \mathrm {S} \mathrm {T} \,}$
\mathrm{U} \mathrm{V} \mathrm{W} \mathrm{X} \mathrm{Y} \mathrm{Z}	${\displaystyle \mathrm {U} \mathrm {V} \mathrm {W} \mathrm {X} \mathrm {Y} \mathrm {Z} \,}$
\mathrm{a} \mathrm{b} \mathrm{c} \mathrm{d} \mathrm{e} \mathrm{f} \mathrm{g}	${\displaystyle \mathrm {a} \mathrm {b} \mathrm {c} \mathrm {d} \mathrm {e} \mathrm {f} \mathrm {g} \,}$
\mathrm{h} \mathrm{i} \mathrm{j} \mathrm{k} \mathrm{l} \mathrm{m}	${\displaystyle \mathrm {h} \mathrm {i} \mathrm {j} \mathrm {k} \mathrm {l} \mathrm {m} \,}$
\mathrm{n} \mathrm{o} \mathrm{p} \mathrm{q} \mathrm{r} \mathrm{s} \mathrm{t}	${\displaystyle \mathrm {n} \mathrm {o} \mathrm {p} \mathrm {q} \mathrm {r} \mathrm {s} \mathrm {t} \,}$
\mathrm{u} \mathrm{v} \mathrm{w} \mathrm{x} \mathrm{y} \mathrm{z}	${\displaystyle \mathrm {u} \mathrm {v} \mathrm {w} \mathrm {x} \mathrm {y} \mathrm {z} \,}$
\mathrm{0} \mathrm{1} \mathrm{2} \mathrm{3} \mathrm{4}	${\displaystyle \mathrm {0} \mathrm {1} \mathrm {2} \mathrm {3} \mathrm {4} \,}$
\mathrm{5} \mathrm{6} \mathrm{7} \mathrm{8} \mathrm{9}	${\displaystyle \mathrm {5} \mathrm {6} \mathrm {7} \mathrm {8} \mathrm {9} \,}$
Fraktur typeface
\mathfrak{A} \mathfrak{B} \mathfrak{C} \mathfrak{D} \mathfrak{E} \mathfrak{F} \mathfrak{G}	${\displaystyle {\mathfrak {A}}{\mathfrak {B}}{\mathfrak {C}}{\mathfrak {D}}{\mathfrak {E}}{\mathfrak {F}}{\mathfrak {G}}\,}$
\mathfrak{H} \mathfrak{I} \mathfrak{J} \mathfrak{K} \mathfrak{L} \mathfrak{M}	${\displaystyle {\mathfrak {H}}{\mathfrak {I}}{\mathfrak {J}}{\mathfrak {K}}{\mathfrak {L}}{\mathfrak {M}}\,}$
\mathfrak{N} \mathfrak{O} \mathfrak{P} \mathfrak{Q} \mathfrak{R} \mathfrak{S} \mathfrak{T}	${\displaystyle {\mathfrak {N}}{\mathfrak {O}}{\mathfrak {P}}{\mathfrak {Q}}{\mathfrak {R}}{\mathfrak {S}}{\mathfrak {T}}\,}$
\mathfrak{U} \mathfrak{V} \mathfrak{W} \mathfrak{X} \mathfrak{Y} \mathfrak{Z}	${\displaystyle {\mathfrak {U}}{\mathfrak {V}}{\mathfrak {W}}{\mathfrak {X}}{\mathfrak {Y}}{\mathfrak {Z}}\,}$
\mathfrak{a} \mathfrak{b} \mathfrak{c} \mathfrak{d} \mathfrak{e} \mathfrak{f} \mathfrak{g}	${\displaystyle {\mathfrak {a}}{\mathfrak {b}}{\mathfrak {c}}{\mathfrak {d}}{\mathfrak {e}}{\mathfrak {f}}{\mathfrak {g}}\,}$
\mathfrak{h} \mathfrak{i} \mathfrak{j} \mathfrak{k} \mathfrak{l} \mathfrak{m}	${\displaystyle {\mathfrak {h}}{\mathfrak {i}}{\mathfrak {j}}{\mathfrak {k}}{\mathfrak {l}}{\mathfrak {m}}\,}$
\mathfrak{n} \mathfrak{o} \mathfrak{p} \mathfrak{q} \mathfrak{r} \mathfrak{s} \mathfrak{t}	${\displaystyle {\mathfrak {n}}{\mathfrak {o}}{\mathfrak {p}}{\mathfrak {q}}{\mathfrak {r}}{\mathfrak {s}}{\mathfrak {t}}\,}$
\mathfrak{u} \mathfrak{v} \mathfrak{w} \mathfrak{x} \mathfrak{y} \mathfrak{z}	${\displaystyle {\mathfrak {u}}{\mathfrak {v}}{\mathfrak {w}}{\mathfrak {x}}{\mathfrak {y}}{\mathfrak {z}}\,}$
\mathfrak{0} \mathfrak{1} \mathfrak{2} \mathfrak{3} \mathfrak{4}	${\displaystyle {\mathfrak {0}}{\mathfrak {1}}{\mathfrak {2}}{\mathfrak {3}}{\mathfrak {4}}\,}$
\mathfrak{5} \mathfrak{6} \mathfrak{7} \mathfrak{8} \mathfrak{9}	${\displaystyle {\mathfrak {5}}{\mathfrak {6}}{\mathfrak {7}}{\mathfrak {8}}{\mathfrak {9}}\,}$
Calligraphy/Script
\mathcal{A} \mathcal{B} \mathcal{C} \mathcal{D} \mathcal{E} \mathcal{F} \mathcal{G}	${\displaystyle {\mathcal {A}}{\mathcal {B}}{\mathcal {C}}{\mathcal {D}}{\mathcal {E}}{\mathcal {F}}{\mathcal {G}}\,}$
\mathcal{H} \mathcal{I} \mathcal{J} \mathcal{K} \mathcal{L} \mathcal{M}	${\displaystyle {\mathcal {H}}{\mathcal {I}}{\mathcal {J}}{\mathcal {K}}{\mathcal {L}}{\mathcal {M}}\,}$
\mathcal{N} \mathcal{O} \mathcal{P} \mathcal{Q} \mathcal{R} \mathcal{S} \mathcal{T}	${\displaystyle {\mathcal {N}}{\mathcal {O}}{\mathcal {P}}{\mathcal {Q}}{\mathcal {R}}{\mathcal {S}}{\mathcal {T}}\,}$
\mathcal{U} \mathcal{V} \mathcal{W} \mathcal{X} \mathcal{Y} \mathcal{Z}	${\displaystyle {\mathcal {U}}{\mathcal {V}}{\mathcal {W}}{\mathcal {X}}{\mathcal {Y}}{\mathcal {Z}}\,}$
Hebrew
\aleph \beth \gimel \daleth	${\displaystyle \aleph \beth \gimel \daleth \,}$