Hamline University Physics Department Latex Equation Editor

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This page was created by Prof. Andy Rundquist of the Hamline University Physics Department. If you have requests for packages to add, please email me at firstinitiallastname@hamline.edu.

Here are some example latex equations:

Gallery:

syntax gif
f=\frac{n v}{2 L}, \underbrace{\color{red}n=1, 2, 3, \ldots}_{\text{allowed n's}}
\newcommand{\webvector}[2]{\left( \begin{array}{c} #1 \\ #2 \end{array} \right)}
\webvector{a}{b}+\webvector{c}{d}=\webvector{a+c}{b+d}
\alpha, \beta, \ldots, \omega
m \ddot{x} = -k x - b \dot{x}
m \ddot{x} = \underbrace{-k x}_{\text{Hooke's law}} - \underbrace{b \dot{x}}_{\text{\color{red}friction}}
\int_{-10}^{10}x^2\,dx
\newcommand{\cool}[2]{\sqrt[#1]{x^{#2}-\uc{red}{1}}}
\cool{\uc{green}{\cool{6}{7}}}{\uc{blue}{\cool{4}{5}}}
\newcommand{\del}{\nabla}
\underbrace{\begin{array}{|l|l|}
\hline
\color{red}\text{Coulomb's law} & \color{red}\del \cdot \vec{D} = 4 \pi \rho \\
\hline
\color{yellow}\text{Amp\`{e}re's law} & \color{yellow}\del \times \vec{H} = \frac{4 \pi}{c} \vec{J} \\
\hline
\color{green}\text{Faraday's law} & \color{green}\del \times \vec{E} + \frac{1}{c} \frac{\partial \vec{B}}{\partial t}=0 \\
\hline
\color{blue}\text{No magnetic monopoles} & \color{blue}\del \cdot \vec{B} = 0 \\
\hline
\end{array}}_{\mbox{\uc{magenta}{Light!}}}
\bigcap_a^b\bigcup_a^b\prod_a^b\coprod_a^b\int_a^b\oint_a^b\sum_a^b>a_ba^b\sqrt[n]{x}\lim_{x \rightarrow 0} \left [  \right ]\left (  \right )\left |  \right |\fracleft aligned arraycenter aligned arrayright aligned array\alpha\beta\gamma\delta\epsilon\varepsilon\zeta\eta\theta\vartheta\iota\kappa\lambda\mu\nu\leq\prec\preceq\ll\geq\succ\succeq\gg\equiv\sim\simeq\asymp\approx\neq\propto\xi\pi\varpi\rho\varrho\sigma\varsigma\tau\upsilon\phi\varphi\chi\psi\omega\omega\omega\omega\omega\omega\omega\leftarrow\Leftarrow\rightarrow\Rightarrow\leftrightarrow\Leftrightarrow\Gamma\Delta\Theta\Lambda\Xi\Pi\Sigma\Upsilon\Phi\Psi\Omega\in\ni\nabla\forall\exists\partial\infty\aleph\hbar\imath\jmath\ell\wp\Re\Im \prime