No.239
File: 1445914512359.png (60.24 KB, 360x360, 1:1, DJ- -Boo.png) ImgOps Google
Hey testers! Try out this cool new thread!
No.240
File: 1445914781815.png (130.58 KB, 789x1114, 789:1114, DJ- -BowTie.png) ImgOps Google
No really! It's cool!
No.241
File: 1445919622312.jpg (26.58 KB, 540x960, 9:16, 11114020_10202725074767771….jpg) ImgOps Exif Google
hi
No.245
File: 1445990198863.png (286.39 KB, 640x732, 160:183, DJ- -Awesomeface.png) ImgOps Google
Test
No.247
File: 1446345774169.gif (1.36 MB, 960x540, 16:9, 1446056671962.gif) ImgOps Google
No.248
File: 1446345782614.png (100.74 KB, 396x617, 396:617, 1446053795050.png) ImgOps Google
No.309
>>308Einstein's Field Equations:
[math]G_{\mu\nu}\equiv R_{\mu\nu} - {1 \over 2}R\,g_{\mu\nu} = {8 \pi G \over c^4} T_{\mu\nu}[/math]
No.310
File: 1452328745549.png (140.8 KB, 276x273, 92:91, pinkie G3 I have a cunning….png) ImgOps Google
\begin{equation}
\Sigma_{j=1}^n \Gamma_i^jX_j
\end{equation}
No.315
File: 1452399521564.png (114.09 KB, 1024x1024, 1:1, DJ-,,,-WutIsTail.png) ImgOps Google
I want to see what happens.
[math]x = {-b \pm \sqrt{b^2-4ac} \over 2a}[/math]
No.316
File: 1452441802348.png (164.22 KB, 376x400, 47:50, huh 2.png) ImgOps Google
>>315[math]D_XY=\nabla_XY+Jh(X,Y)[/math]
No.318
File: 1452442230770.jpg (49.33 KB, 344x445, 344:445, double princess.jpg) ImgOps Exif Google
[math]A_{m,n} =
\begin{pmatrix}
a_{1,1} & a_{1,2} & \cdots & a_{1,n} \\
a_{2,1} & a_{2,2} & \cdots & a_{2,n} \\
\vdots & \vdots & \ddots & \vdots \\
a_{m,1} & a_{m,2} & \cdots & a_{m,n}
\end{pmatrix}[/math]
No.319
File: 1452474851947.png (245.06 KB, 714x1118, 357:559, DJ- -Dapper.png) ImgOps Google
>>318That's quite the matrix you have there.
