TeX
Name:
Anonymous
2010-10-11 17:02
I'm new here :D
HOW I TEX?
$\alpha \sim B(\alpha,\beta)$
Name:
Anonymous
2011-01-23 6:14
\int_0^\infty \! x^{2n} e^{-(x^2) \over{a^2}} \, \mathrm{d}x = \sqrt{\pi} \frac{(2n)!}{n!} { ( }a/2{ ) }^{2n+1}
V={1,2,3,4},E={12,23,32,34,41}
A =\pmatrix {0 & 1 & 0 & 0\cr 0 & 0 & 1 & 0\cr 0 & 1 & 0 & 1\cr 1 & 0 & 0 & 0\cr}
Name:
Anonymous
2011-01-23 6:15
\int_0^\infty \! x^{2n} e^{-(x^2) \over{a^2}} \, \mathrm{d}x = \sqrt{\pi} \frac{(2n)!}{n!} { ( }a/2{ ) }^{2n+1}
V={1,2,3,4},E={12,23,32,34,41}
A =\pmatrix {0 & 1 & 0 & 0\cr 0 & 0 & 1 & 0\cr 0 & 1 & 0 & 1\cr 1 & 0 & 0 & 0\cr}
Name:
Anonymous
2012-07-04 4:46
R_{\alpha}^t \cdot (\vec{a} t + \vec{b}) + R_\beta^t \cdot \vec{c} - d = 0
\Leftrightarrow \left(\begin{matrix}
\cos(\alpha t)
\sin(\alpha t)\end{matrix}\right) \cdot \left(\begin{matrix}
a_x t + b_x
a_y t + b_y\end{matrix}\right) + \left(\begin{matrix}
\cos(\beta t)
\sin(\beta t)\end{matrix}\right) \cdot \left(\begin{matrix}
c_x
c_y\end{matrix}\right) - d = 0
Name:
Anonymous
2012-07-04 4:48
Red button:
100% 10^6 = 10^6
Green button:
50% 10^{8}, 50% 10^{-Infinity} = 10^\frac{8 - Infinity}{2} = 10^{-Infinity} = 0
Of course red button.
Name:
Anonymous
2012-07-04 4:49
Red button:
100\% 10^6 = 10^6
Green button:
50\% 10^{8}, 50\% 10^{-Infinity} = 10^\frac{8 - Infinity}{2} = 10^{-Infinity} = 0
Of course red button.
Name:
Anonymous
2012-07-04 4:52
Red button: 100%\ 10^6 = 10^6
Green button: 50%\ 10^{8}, 50%\ 10^{-Infinity} = 10^\frac{8 - Infinity}{2} = 10^{-Infinity} = 0
Of course red button.
Name:
Anonymous
2012-07-04 4:52
Red button: 100\%\ 10^6 = 10^6
Green button: 50\%\ 10^{8}, 50\%\ 10^{-Infinity} = 10^\frac{8 - Infinity}{2} = 10^{-Infinity} = 0
What am I wrong?
Name:
Anonymous
2012-07-04 5:22
\bbox[background-image:url('http://www.seinfeld-fan.net/pictures/george/george_costanza006.jpg');pos
ition:fixed;top:0;left:0;width :100%;height:100%]~
Name:
Anonymous
2012-07-09 0:25
different person here
\oint_0^\infty n(c)\ dc \rightarrow \oint_0^\infty x(c) + m(c)\ dc
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