User:MatthewEash/Sandbox

$$e=mc^2$$
 * Bullet 1
 * Bullet 2

$$Diff(z)=1-\dfrac{\dfrac{\partial B}{\partial z}}{G}\,\!$$


 * $$J=\begin{bmatrix} \dfrac{\partial y_1}{\partial x_1} & \cdots & \dfrac{\partial y_1}{\partial x_n} \\ \vdots & \ddots & \vdots \\ \dfrac{\partial y_m}{\partial x_1} & \cdots & \dfrac{\partial y_m}{\partial x_n} \end{bmatrix}. $$

$$Diff(z)=1-\frac{{\partial B}/{\partial z}\;}{G}\approx 1-\frac{v}{s}$$