Mathematical LaTeX는 어떻게 사용하나요?

아래 상자에 텍스트를 입력하세요. 수학식을 포함하려면 MathML 태그를 사용하고, TeX는$...$ 또는 구분 $$...$$호(또는 (...)[...])로, AsciiMath는 `...` 구분 기호로 입력하세요. 입력하는 텍스트는 실제로 HTML이므로 원하는 경우 태그를 포함할 수 있습니다. 하지만 이는 부등호(<), 앰퍼샌드(&) 및 기타 HTML 특수 문자를 수학식 내에서 사용할 때 주의해야 한다는 것을 의미합니다(공백으로 감싸는 것으로 충분합니다).

예를 들어:

Operators

$$\pm$$ \pm $$\mp$$ \mp $$\times$$ \times
$$\div$$ \div $$\cdot$$ \cdot $$\ast$$ \ast
$$\star$$ \star $$\dagger$$ \dagger $$\ddagger$$ \ddagger
$$\amalg$$ \amalg $$\cap$$ \cap $$\cup$$ \cup
$$\uplus$$ \uplus $$\sqcap$$ \sqcap $$\sqcup$$ \sqcup
$$\vee$$ \vee $$\wedge$$ \wedge $$\oplus$$ \oplus
$$\ominus$$ \ominus $$\otimes$$ \otimes $$\circ$$ \circ
$$\bullet$$ \bullet $$\diamond$$ \diamond $$\lhd$$ \lhd
$$\rhd$$ \rhd $$\unlhd$$ \unlhd $$\unrhd$$ \unrhd
$$\oslash$$ \oslash $$\odot$$ \odot $$\bigcirc$$ \bigcirc
$$\triangleleft$$ \triangleleft $$\Diamond$$ \Diamond $$\bigtriangleup$$ \bigtriangleup
$$\bigtriangledown$$ \bigtriangledown $$\Box$$ \Box $$\triangleright$$ \triangleright
$$\setminus$$ \setminus $$\wr$$ \wr $$\sqrt{x}$$ \sqrt{x}
$$x^{\circ}$$ x^{\circ} $$\triangledown$$ \triangledown $$\sqrt[n]{x}$$ \sqrt[n]{x}
$$a^x$$ a^x $$a^{xyz}$$ a^{xyz} $$a_x$$ a_x

Relations

$$\le$$ \le $$\ge$$ \ge $$\neq$$ \neq
$$\sim$$ \sim $$\ll$$ \ll $$\gg$$ \gg
$$\doteq$$ \doteq $$\simeq$$ \simeq $$\subset$$ \subset
$$\supset$$ \supset $$\approx$$ \approx $$\asymp$$ \asymp
$$\subseteq$$ \subseteq $$\supseteq$$ \supseteq $$\cong$$ \cong
$$\smile$$ \smile $$\sqsubset$$ \sqsubset $$\sqsupset$$ \sqsupset
$$\equiv$$ \equiv $$\frown$$ \frown $$\sqsubseteq$$ \sqsubseteq
$$\sqsupseteq$$ \sqsupseteq $$\propto$$ \propto $$\bowtie$$ \bowtie
$$\in$$ \in $$\ni$$ \ni $$\prec$$ \prec
$$\succ$$ \succ $$\vdash$$ \vdash $$\dashv$$ \dashv
$$\preceq$$ \preceq $$\succeq$$ \succeq $$\models$$ \models
$$\perp$$ \perp $$\parallel$$ \parallel
$$\mid$$ \mid $$\bumpeq$$ \bumpeq

Negations of many of these relations can be formed by just putting \not before the symbol, or by slipping an "n" between the \ and the word. Here are a couple examples, plus many other negations; it works for many of the many others as well.

$$\nmid$$ \nmid $$\nleq$$ \nleq $$\ngeq$$ \ngeq
$$\nsim$$ \nsim $$\ncong$$ \ncong $$\nparallel$$ \nparallel
$$\not<$$ \not< $$\not>$$ \not> $$\not= or \neq or \ne$$ \not= or \neq or \ne
$$\not\le$$ \not\le $$\not\ge$$ \not\ge $$\not\sim$$ \not\sim
$$\not\approx$$ \not\approx $$\not\cong$$ \not\cong $$\not\equiv$$ \not\equiv
$$\not\parallel$$ \not\parallel $$\nless$$ \nless $$\ngtr$$ \ngtr
$$\lneq$$ \lneq $$\gneq$$ \gneq $$\lnsim$$ \lnsim
$$\lneqq$$ \lneqq $$\gneqq$$ \gneqq

Greek Letters

Lowercase Letters

$$\alpha$$ \alpha $$\beta$$ \beta $$\gamma$$ \gamma $$\delta$$ \delta
$$\epsilon$$ \epsilon $$\varepsilon$$ \varepsilon $$\zeta$$ \zeta $$\eta$$ \eta
$$\theta$$ \theta $$\vartheta$$ \vartheta $$\iota$$ \iota $$\kappa$$ \kappa
$$\lambda$$ \lambda $$\mu$$ \mu $$\nu$$ \nu $$\xi$$ \xi
$$\pi$$ \pi $$\varpi$$ \varpi $$\rho$$ \rho $$\varrho$$ \varrho
$$\sigma$$ \sigma $$\varsigma$$ \varsigma $$\tau$$ \tau $$\upsilon$$ \upsilon
$$\phi$$ \phi $$\varphi$$ \varphi $$\chi$$ \chi $$\psi$$ \psi
$$\omega$$ \omega

Capital Letters

$$\Gamma$$ \Gamma $$\Delta$$ \Delta $$\Theta$$ \Theta $$\Lambda$$ \Lambda
$$\Xi$$ \Xi $$\Pi$$ \Pi $$\Sigma$$ \Sigma $$\Upsilon$$ \Upsilon
$$\Phi$$ \Phi $$\Psi$$ \Psi $$\Omega$$ \Omega

Arrows

$$\gets$$ \gets $$\to$$ \to
$$\leftarrow$$ \leftarrow $$\Leftarrow$$ \Leftarrow
$$\rightarrow$$ \rightarrow $$\Rightarrow$$ \Rightarrow
$$\leftrightarrow$$ \leftrightarrow $$\Leftrightarrow$$ \Leftrightarrow
$$\mapsto$$ \mapsto $$\hookleftarrow$$ \hookleftarrow
$$\leftharpoonup$$ \leftharpoonup $$\leftharpoondown$$ \leftharpoondown
$$\rightleftharpoons$$ \rightleftharpoons $$\longleftarrow$$ \longleftarrow
$$\Longleftarrow$$ \Longleftarrow $$\longrightarrow$$ \longrightarrow
$$\Longrightarrow$$ \Longrightarrow $$\longleftrightarrow$$ \longleftrightarrow
$$\Longleftrightarrow$$ \Longleftrightarrow $$\longmapsto$$ \longmapsto
$$\hookrightarrow$$ \hookrightarrow $$\rightharpoonup$$ \rightharpoonup
$$\rightharpoondown$$ \rightharpoondown $$\leadsto$$ \leadsto
$$\uparrow$$ \uparrow $$\Uparrow$$ \Uparrow
$$\downarrow$$ \downarrow $$\Downarrow$$ \Downarrow
$$\updownarrow$$ \updownarrow $$\Updownarrow$$ \Updownarrow
$$\nearrow$$ \nearrow $$\searrow$$ \searrow
$$\swarrow$$ \swarrow $$\nwarrow$$ \nwarrow
$$\overrightarrow{AB}$$ \overrightarrow{AB} $$\overleftarrow{AB}$$ \overleftarrow{AB}
$$\overleftrightarrow{AB}$$ \overleftrightarrow{AB}

Dots

$$\cdot$$ \cdot $$\vdots$$ \vdots
$$\dots$$ \dots $$\ddots$$ \ddots
$$\cdots$$ \cdots

Accents

$$\hat{x}$$ \hat{x} $$\check{x}$$ \check{x} $$\dot{x}$$ \dot{x}
$$\breve{x}$$ \breve{x} $$\acute{x}$$ \acute{x} $$\ddot{x}$$ \ddot{x}
$$\grave{x}$$ \grave{x} $$\tilde{x}$$ \tilde{x} $$\mathring{x}$$ \mathring{x}
$$\bar{x}$$ \bar{x} $$\vec{x}$$ \vec{x} $$\widehat{7+x}$$ \widehat{7+x}
$$\vec{\jmath}$$ \vec{\jmath} $$\tilde{\imath}$$ \tilde{\imath} $$\widetilde{abc} $$ \widetilde{abc}

Others

$$\infty$$ \infty $$\triangle$$ \triangle $$\angle$$ \angle
$$\aleph$$ \aleph $$\hbar$$ \hbar $$\imath$$ \imath
$$\jmath$$ \jmath $$\ell$$ \ell $$\wp$$ \wp
$$\Re$$ \Re $$\Im$$ \Im $$\mho$$ \mho
$$\prime$$ \prime $$\emptyset$$ \emptyset $$\nabla$$ \nabla
$$\surd$$ \surd $$\partial$$ \partial $$\top$$ \top
$$\bot$$ \bot $$\vdash$$ \vdash $$\dashv$$ \dashv
$$\forall$$ \forall $$\exists$$ \exists $$\neg$$ \neg
$$\flat$$ \flat $$\natural$$ \natural $$\sharp$$ \sharp
$$\backslash$$ \backslash $$\Box$$ \Box $$\Diamond$$ \Diamond
$$\clubsuit$$ \clubsuit $$\diamondsuit$$ \diamondsuit $$\heartsuit$$ \heartsuit
$$\spadesuit$$ \spadesuit $$\Join$$ \Join $$\blacksquare$$ \blacksquare
$$\diamondsuit$$ \diamondsuit $$\in$$ \in $$\vDash$$ \vDash
$$\heartsuit$$ \heartsuit $$\implies$$ \implies $$\LaTeX$$ \LaTeX
$$\S$$ \S $$\text{\LaTeX}$$ \text{\LaTeX}
$$\bigstar$$ \bigstar $$\checkmark$$ \checkmark
$$\square$$ \square $$\cup$$ \cup
$$\mathbb{R} (represents all real numbers)$$ \mathbb{R} (represents all real numbers) $$\Vdash$$ \Vdash

Command Symbols

Some symbols are used in commands, so they need to be treated in a special way.
$$\#$$ \# $$\&$$ \&
$$\_$$ \_ $$\{$$ \{
$$\backslash$$ \backslash $$\%$$ \%
$$\}$$ \}

Bracketing Symbols

In mathematics, sometimes we need to enclose expressions in brackets, braces or parentheses. Some of these work just as you'd imagine in LaTeX; type ( and ) for parentheses, [ and ] for brackets, and | and | for absolute value. However, other symbols have special commands:

$$\{$$ \{ $$\}$$ \} $$\|$$ \|
$$\backslash$$ \backslash $$\lfloor$$ \lfloor $$\rfloor$$ \rfloor
$$\lceil$$ \lceil $$\rceil$$ \rceil $$\langle$$ \langle
$$\rangle$$ \rangle

You might notice that if you use any of these to typeset an expression that is vertically large, like

(\frac{a}{x} )^2

the parentheses don't come out the right size:

$$(\frac{a}{x}) ^2$$

 

If we put \left and \right before the relevant parentheses, we get a prettier expression:

\left(\frac{a}{x} \right)^2

gives

$$\left(\frac{a}{x} \right)^2$$

 

For systems of equations or piecewise functions, use the cases environment:

f(x) = \begin{cases} x^2 &\text{if } x \ge 0 \ x &\text{if } x < 0 \end{cases}

which gives

$$f(x) = \begin{cases} x^2 &\text{if } x \ge 0 \ x &\text{if } x < 0 \end{cases}$$

 

In addition to the \left and \right commands, when doing floor or ceiling functions with fractions, using

\left\lceil\frac{x}{y}\right\rceil

and \left\lfloor\frac{x}{y}\right\rfloor

gives both $$\left\lceil\frac{x}{y}\right\rceil$$ and $$\left\lfloor\frac{x}{y}\right\rfloor$$

if you type this

\underbrace{a_0+a_1+a_2+\cdots+a_n}_{x}

Gives

a0+a1+a2+⋯+an⏟x

Or

\overbrace{a_0+a_1+a_2+\cdots+a_n}^{x}

Gives

a0+a1+a2+⋯+an⏞x

\left and \right can also be used to resize the following symbols:

Symbol Command Symbol Command Symbol Command
$\uparrow$ \uparrow $\downarrow$ \downarrow $\updownarrow$ \updownarrow
$\Uparrow$ \Uparrow $\Downarrow$ \Downarrow $\Updownarrow$ \Updownarrow

 

Multi-Size Symbols

Some symbols render differently in inline math mode and in display mode. Display mode occurs when you use $...$ or $$...$$, or environments like \begin{equation}...\end{equation} or \begin{align}...\end{align}. Read more in the commands section of the guide about how symbols which take arguments above and below the symbols, such as a summation symbol, behave in the two modes. In each of the following, the two images show the symbol in display mode, then in inline mode.

Symbol Command Symbol Command Symbol Command
$\sum \textstyle\sum$ \sum $\int \textstyle\int$ \int $\oint \textstyle\oint$ \oint
$\prod \textstyle\prod$ \prod $\coprod \textstyle\coprod$ \coprod $\bigcap \textstyle\bigcap$ \bigcap
$\bigcup \textstyle\bigcup$ \bigcup $\bigsqcup \textstyle\bigsqcup$ \bigsqcup $\bigvee \textstyle\bigvee$ \bigvee
$\bigwedge \textstyle\bigwedge$ \bigwedge $\bigodot \textstyle\bigodot$ \bigodot $\bigotimes \textstyle\bigotimes$ \bigotimes
$\bigoplus \textstyle\bigoplus$ \bigoplus $\biguplus \textstyle\biguplus$ \biguplus