Panduan Lengkap Menulis Ekspresi atau Rumus Matematika dengan Latex
Saya mempunyai blog matematika. Bagaimana menuliskan rumus matematika di dalam blog tersebut? Yaa, kita bisa menggunakan LaTeX. Di sini saya akan membuat Catatan Lengkap untuk menuliskan ekspresi, atau symbol, atau rumus matematika di blog wordpress dengan menggunakan Latex. Tulisan ini tentu saja khususnya buat catatan saya jika lupa bagaimana menuliskan kode latex. Dan umumnya, buat pembaca yang ingin menulis rumus matematika di web, atau di blog, khususnya blog gratisan wordpress.
Untuk menuliskan rumus/ekspresi matematika dengan menggunakan latex, kita bisa menggunakan perintah latex dengan dua cara berikut ini :
Di sini saya akan lebih sering menggunakan yang pertama, yaitu $#latex kode$, karena lebih simple, maksudnya, di akhirannya hanya menggunakan tanda $ dolar saja. Tidak panjang-panjang
Penulisan Dasar : Subscript, Superscript, Akar Pangkat, Pecahan, dan Sejenisnya
Penulisan Simbol atau Tanda Hubung atau Sejenisnya
Tambahan
Warna dan ukuran
&fg=aa0000&s=2 , s adalah ukuran -4, -3, -2, -1, 1, 2, 3, 4
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=aa0000&s=1$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00aa00&s=2$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=0000aa&s=3$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00ff00&s=4$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00af00&s=-1$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=aaff00&s=-2$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=abcdef&s=-3$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00af0a&s=-4$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=aa0000&s=1$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00aa00&s=2$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=0000aa&s=3$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00ff00&s=4$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00af00&s=-1$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=aaff00&s=-2$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=abcdef&s=-3$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00af0a&s=-4$
$#latex \begin{array}{ccc} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$#latex \begin{array}{lcr} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$#latex \begin{array}{rcl} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$latex \begin{array}{ccc} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$latex \begin{array}{lcr} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$latex \begin{array}{rcl} (x+y)(x-y) & = & x^2 - xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
Tentu saja postingan ini akan ditambah terus seiring penulis menulis simbol matematika dengan latex yang terbaru. Semoga bermanfaat.
Tulisan Terbaru :
[archives limit=7]
Untuk menuliskan rumus/ekspresi matematika dengan menggunakan latex, kita bisa menggunakan perintah latex dengan dua cara berikut ini :
Baca Juga
$#latex kode$
[#latex] kode[/#latex]
hapus tanda #
Di sini saya akan lebih sering menggunakan yang pertama, yaitu $#latex kode$, karena lebih simple, maksudnya, di akhirannya hanya menggunakan tanda $ dolar saja. Tidak panjang-panjang
Ingat!! Hapus tanda # sebelum kata latex
Penulisan Dasar : Subscript, Superscript, Akar Pangkat, Pecahan, dan Sejenisnya
| $#latex a-b+c=d$ | $latex a-b+c=d$ |
| $#latex a \times b=c$ | $latex a \times b=c$ |
| $#latex a:b=c$ | $latex a:b=c$ |
| $#latex \frac{a}{b} =c$ | $latex \frac{a}{b} =c$ |
| $#latex a^b$ | $latex a^b$ |
| $#latex a^{b+c}$ | $latex a^{b+c}$ |
| $#latex a_b$ | $latex a_b$ |
| $#latex a_{b+1}$ | $latex a_{b+1}$ |
| $#latex a^b_c$ | $latex a^b_c$ |
| $#latex a^{b+1}_{c+1}$ | $latex a^{b+1}_{c+1}$ |
| $#latex \sqrt{a}$ | $latex \sqrt{a}$ |
| $#latex \sqrt{3}{a}$ | $latex \sqrt{3}{a}$ |
| $#latex \sqrt{ \frac{a^2}{3b^3+1}}$ | $latex \sqrt{ \frac{a^2}{3b^3+1}}$ |
| $#latex \int \, \iiint \, \oint$ | $latex \int \, \iiint \, \oint$ |
| $#latex \lim_{n \to \infty} \frac{1}{n}=0$ | $latex \lim_{n \to \infty} \frac{1}{n}=0$ |
| $#latex \int^b_a x^2 \, dx$ | $latex \int^b_a x^2 \, dx$ |
| $#latex \sum^{\infty}_{n=1} \frac{1}{n}$ | $latex \sum^{\infty}_{n=1} \frac{1}{n}$ |
| $#latex \lim \limits_{n \to \infty} \frac{1}{n}=0$ | $latex \lim \limits_{n \to \infty} \frac{1}{n}=0$ |
| $#latex \int \limits^b_a x^2 \, dx$ | $latex \int \limits^b_a x^2 \, dx$ |
| $#latex \sum \limits^{\infty}_{n=1} \frac{1}{n}$ | $latex \sum \limits^{\infty}_{n=1} \frac{1}{n}$ |
| $#latex (a)$ | $latex (a)$ |
| $#latex [a]$ | $latex [a]$ |
| $#latex \{ a \}$ | $latex \{ a \}$ |
| $#latex |a|$ | $latex |a|$ |
| $#latex \{ a \}$ | $latex \{ a \}$ |
| $#latex [\frac{a}{b}]$ | $latex [\frac{a}{b}]$ |
| $#latex \{ \frac{a}{b} \}$ | $latex \{ \frac{a}{b} \}$ |
| $#latex \left ( \frac{a}{b} \right )$ | $latex \left ( \frac{a}{b} \right )$ |
| $#latex \left [ \frac{a}{b} \right ]$ | $latex \left [ \frac{a}{b} \right ]$ |
| $#latex \left \lbrace \frac{a}{b} \right \rbrace$ | $latex \left \lbrace \frac{a}{b} \right \rbrace$ |
| $#latex \left \langle \frac{a}{b} \right \rangle$ | $latex \left \langle \frac{a}{b} \right \rangle$ |
| $#latex \left \vert \frac{a}{b} \right \vert$ | $latex \left \vert \frac{a}{b} \right \vert$ |
| $#latex \left \Vert \frac{a}{b} \right \Vert$ | $latex \left \Vert \frac{a}{b} \right \Vert$ |
| $#latex \left \lfloor \frac{a}{b} \right \rfloor$ | $latex \left \lfloor \frac{a}{b} \right \rfloor$ |
| $#latex \left \lceil \frac{a}{b} \right \rceil$ | $latex \left \lceil \frac{a}{b} \right \rceil$ |
| $#latex \downarrow$ | $latex \downarrow$ |
| $#latex \uparrow$ | $latex \uparrow$ |
| $#latex \updownarrow$ | $latex \updownarrow$ |
Ingat!! Hapus tanda # sebelum kata latex
Penulisan Simbol atau Tanda Hubung atau Sejenisnya
| $#latex \bar{A}$ | $latex \bar{A}$ |
| $#latex \hat{a}$ | $latex \hat{a}$ |
| $#latex \vec{c}$ | $latex \vec{c}$ |
| $#latex \overline{xy}$ | $latex \overline{xy}$ |
| $#latex \widehat{xy}$ | $latex \widehat{xy}$ |
| $#latex \overrightarrow{xy}$ | $latex \overrightarrow{xy}$ |
| $#latex \overleftarrow{xy}$ | $latex \overleftarrow{xy}$ |
| $#latex \underline{xy}$ | $latex \underline{xy}$ |
| $#latex \overset{a}{b}$ | $latex \overset{a}{b}$ |
| $#latex \underset{a}{b}$ | $latex \underset{a}{b}$ |
| $#latex {a \atop b}$ | $latex {a \atop b}$ |
| $#latex {a \choose b}$ | $latex {a \choose b}$ |
| $#latex \overbrace {a+a+ \cdots+a}^{\mbox{n kali}}$ | $latex \overbrace {a+a+ \cdots+a}^{\mbox{n kali}}$ |
| $#latex \underbrace{a+a+ \cdots +a}_{\mbox{n kali}}$ | $latex \underbrace{a+a+ \cdots +a}_{\mbox{n kali}}$ |
| $#latex \begin{cases} n, & \mbox{if} n\mbox{ is even} \\ 2n, & \mbox{if} n\mbox{ is odd} \end{cases} $ | $latex \begin{cases} n, & \mbox{if} n\mbox{ is even} \\ 2n, & \mbox{if} n\mbox{ is odd} \end{cases} $ |
| $#latex \xleftarrow{a+b}$ | $latex \xleftarrow{a+b}$ |
| $#latex \xrightarrow{a+b}$ | $latex \xrightarrow{a+b}$ |
| $#latex \pm$ | $latex \pm$ |
| $#latex \mp$ | $latex \mp$ |
| $#latex \div$ | $latex \div$ |
| $#latex \otimes$ | $latex \otimes$ |
| $#latex \oplus$ | $latex \oplus$ |
| $#latex \to$ | $latex \to$ |
| $#latex \gets$ | $latex \gets$ |
| $#latex \iff$ | $latex \iff$ |
| $#latex \cdot$ | $latex \cdot$ |
| $#latex \dots$ | $latex \dots$ |
| $#latex \cdots$ | $latex \cdots$ |
| $#latex \ne$ | $latex \ne$ |
| $#latex \equiv$ | $latex \equiv$ |
| $#latex \not$ | $latex \not$ |
| $#latex \le$ | $latex \le$ |
| $#latex \ge$ | $latex \ge$ |
| $#latex \sim$ | $latex \sim$ |
| $#latex \approx$ | $latex \approx$ |
| $#latex \simeq$ | $latex \simeq$ |
| $#latex \cong$ | $latex \cong$ |
| $#latex \cap$ | $latex \cap$ |
| $#latex \cup$ | $latex \cup$ |
| $#latex \in$ | $latex \in$ |
| $#latex \ni$ | $latex \ni$ |
| $#latex \notin$ | $latex \notin$ |
| $#latex \forall$ | $latex \forall$ |
| $#latex \exists$ | $latex \exists$ |
| $#latex \nexists$ | $latex \nexists$ |
| $#latex \wedge$ | $latex \wedge$ |
| $#latex \vee$ | $latex \vee$ |
| $#latex \bigwedge$ | $latex \bigwedge$ |
| $#latex \bigvee$ | $latex \bigvee$ |
| $#latex \varnothing$ | $latex \varnothing$ |
| $#latex \complement$ | $latex \complement$ |
| $#latex \subset$ | $latex \subset$ |
| $#latex \subseteq$ | $latex \subseteq$ |
| $#latex \subsetneq$ | $latex \subsetneq$ |
| $#latex \supset$ | $latex \supset$ |
| $#latex \supseteq$ | $latex \supseteq$ |
| $#latex \supsetneq$ | $latex \supsetneq$ |
| $#latex \bigcap$ | $latex \bigcap$ |
| $#latex \bigcup$ | $latex \bigcup$ |
| $#latex \circ$ | $latex \circ$ |
| $#latex \triangle$ | $latex \triangle$ |
| $#latex \triangledown$ | $latex \triangledown$ |
| $#latex \angle$ | $latex \angle$ |
Ingat!! Hapus tanda # sebelum kata latex
Tambahan
| $#latex \pi$ | $latex \pi$ |
| $#latex \phi$ | $latex \phi$ |
| $#latex \rho$ | $latex \rho$ |
| $#latex \sigma$ | $latex \sigma$ |
| $#latex \epsilon$ | $latex \epsilon$ |
| $#latex \delta$ | $latex \delta$ |
| $#latex \theta$ | $latex \theta$ |
| $#latex \kappa$ | $latex \kappa$ |
| $#latex \alpha$ | $latex \alpha$ |
| $#latex \beta$ | $latex \beta$ |
| $#latex \gamma$ | $latex \gamma$ |
| $#latex \omega$ | $latex \omega$ |
| $#latex \zeta$ | $latex \zeta$ |
| $#latex \eta$ | $latex \eta$ |
| $#latex \iota$ | $latex \iota$ |
| $#latex \lambda$ | $latex \lambda$ |
| $#latex \mu$ | $latex \mu$ |
| $#latex \nu$ | $latex \nu$ |
| $#latex \xi$ | $latex \xi$ |
| $#latex \tau$ | $latex \tau$ |
| $#latex \upsilon$ | $latex \upsilon$ |
| $#latex \chi$ | $latex \chi$ |
| $#latex \psi$ | $latex \psi$ |
Warna dan ukuran
&fg=aa0000&s=2 , s adalah ukuran -4, -3, -2, -1, 1, 2, 3, 4
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=aa0000&s=1$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00aa00&s=2$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=0000aa&s=3$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00ff00&s=4$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00af00&s=-1$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=aaff00&s=-2$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=abcdef&s=-3$
$#latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00af0a&s=-4$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=aa0000&s=1$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00aa00&s=2$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=0000aa&s=3$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00ff00&s=4$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00af00&s=-1$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=aaff00&s=-2$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=abcdef&s=-3$
$latex \lim \limits_{n \to \infty} \frac{1}{n}=0&fg=00af0a&s=-4$
$#latex \begin{array}{ccc} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$#latex \begin{array}{lcr} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$#latex \begin{array}{rcl} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$latex \begin{array}{ccc} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$latex \begin{array}{lcr} (x+y)(x-y) & = & x^2-xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
$latex \begin{array}{rcl} (x+y)(x-y) & = & x^2 - xy + yx-y^2 \\ & = & x^2-y^2 \\ (x+y)^2 & = & x^2 + 2xy + y^2 \end{array}$
Tentu saja postingan ini akan ditambah terus seiring penulis menulis simbol matematika dengan latex yang terbaru. Semoga bermanfaat.
Baca juga Tips menulis Matematika di Microsoft Word (Office 2007) | Menuliskan rumus matematika di microsoft word dengan cepat.
Tulisan Terbaru :
[archives limit=7]
Reblogged this on i am "ME".
BalasHapusReblogged this on Danioyo and commented:
BalasHapusPanduan Lengkap Menulis Ekspresi atau Rumus Matematika dengan Latex dari asimtot.wordpress.com
pak, saya reblog ya.. biar sewaktu-waktu saya butuh gampang carinya.. makasih..
BalasHapussilahkan pak.. copy paste juga silahkan. :D
BalasHapusIzin copas ya pak
BalasHapussaya sendiri memiliki blog matematika yang di penuhi dengan ekspresi $latex LaTeX$. Postingan ini sangat berguna untuk saya yang msh belajar $latex LaTeX$.
BalasHapusSaya juga sudah memposting tentang penggunaan $latex LaTeX$ Beamer. SIlahkan kunjungi link kami disini
http://www.blogmatematika.net/2015/01/membuat-presentase-dengan-latex-beamer.html