User:Monguin61

ds

146.6.203.178 (talk) 12:59, 31 March 2009 (UTC)

chris: this thing

∯

integral limit tests

$\hat{j}\partial\beta\Omega\chi$ $\hat{j}\partial\beta\theta\chi$

$\int_a^bf(x)dx = F(x)|_{x=a}^{x=b}$

$\int_a^bf(x)dx =
F(x)|_{x=a}^{x=b}$

$\cursive{EBHM}$

images interfering with code

image:metaballs.png

int main()

reference pages

[http://en.wikipedia.org/wiki/Help:Formula editing math formulas]

[http://en.wikipedia.org/wiki/Wikipedia:Picture_tutorial adding images]

[http://en.wikipedia.org/wiki/User:KSmrq/Chars mathml chars]

[http://en.wikipedia.org/wiki/List_of_lists_of_mathematical_topics math toys]

[http://en.wikipedia.org/wiki/Special:Watchlist watchlist]

[http://en.wikipedia.org/wiki/Benford%27s_law Benford's Law]

latex test

$\phi(t) = \angle{x_a(t)}$

$I_{R-G} = {{qAn_{i} \over 2\tau_{0}} W } {(e^{qV_{A}/kT}) \over ({1 + {{V_{bi}-V_{A}} \over {kT/q}} {\sqrt{\tau_{n}\tau_{p}} \over 2\tau_{0}} { e^{qV_{A}/2kT}}})}$

$e^{i \pi}+1=0\,$

$S=\sum_{m=1}^\infty{ \sum_{n=1}^\infty{ mn^2 \over 2^n(n2^m+m2^n) }}$

$S={1 \over 2} \left (\sum_{m=1}^\infty{ \sum_{n=1}^\infty{ mn^2 \over 2^n(n2^m+m2^n) }} + \sum_{m=1}^\infty{ \sum_{n=1}^\infty{ mn^2 \over 2^n(n2^m+m2^n) }}\right)$

$S={1 \over 2} \left (\sum_{m=1}^\infty{ \sum_{n=1}^\infty{ m^2n \over 2^m(n2^m+m2^n) }} + \sum_{m=1}^\infty{ \sum_{n=1}^\infty{ mn^2 \over 2^n(n2^m+m2^n) }}\right)$

$S={1 \over 2} \sum_{m=1}^\infty{ \sum_{n=1}^\infty{ {m^2n \over 2^m(n2^m+m2^n)} + {mn^2 \over 2^n(n2^m+m2^n)}}}$

$S={1 \over 2} \sum_{m=1}^\infty{ \sum_{n=1}^\infty{ {m^2n2^n+n^2m2^m \over 2^m2^n(n2^m+m2^n)}}}$

$S={1 \over 2} \sum_{m=1}^\infty{ \sum_{n=1}^\infty{ {mn \over 2^m2^n}}}={1 \over 2}\left(\sum_{m=1}^\infty{ {m \over 2^m}}\right)^2$

$\sum_{m=1}^\infty{ {m \over 2^m}}=2$

${S=2}$

: $\displaystyle y(t) = \cos(2\pi(f_0 t + {\beta \over 2}t^2 + \phi_0))$

$\mathbb{PNZQARCHO}\$

∫∬∭∮∯∰∱∲∳∴∵∶∷

: $\sum_{x=0}^{100} f(x)$ ...

: $\frac{df(t)}{dx}$ ...

: $x^{2_3}$ ...

: $\oint T_i(n)a\, dn$ ...

: $\int T_i(n)a\, dn\,$ ...

:∫₀f(x) dx...

: $\sum_{t=i} N(a)\,$ ...

: $ax^2 + bx + c = 0$ ...

: $ax^2 + bx + c = 0\,$

: $\int_a^bf(x)dx = F(x)|_{x=a}^{x=b}$

bb: $\mathbb {ABCDEFGHIJKLMNOPQRSTUVWXYZ}$

frak: $\mathfrak {1234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ}$

cal: $\mathcal {ABCDEFGHIJKLMNOPQRSTUVWXYZ}$

bb: $\mathbb {1234567890abcdefghijklmnopqrstuvwxyz}$

cal: $\mathcal {1234567890abcdefghijklmnopqrstuvwxyz}$

symb: $\int \coprod$ $\begin{matrix} \int \end{matrix}$ $\begin{matrix} \coprod \end{matrix}$

cal not in symb: $\mathcal {45apqsx}$

$\mathcal{45}$ , \mathcal{45} should be \bigtriangleup and \bigtriangledown

\mathcal{6} puts a slash through the next character

\mathcal{7} puts something through the next character

$\mathcal{a}$ , \mathcal{a} should be \dashv

\mathcal{p} puts a surd below the textline, should be \surd

\mathcal{x} = §

Latex symbols with no mirror counterparts: \Lleftarrow \multimap \rightsquigarrow

hierarchies

= subsection =

test test test

== hyposubsection ==

test test test

this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line this is a long line