# User:Jon Awbrey/LaTeX

## LaTeX

### Test 1

 $$\begin{smallmatrix} n & = & \displaystyle\prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} \end{smallmatrix}$$ Small Matrix (3 Column} $$n = \prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)}$$ Normal Spacing $$\begin{array}{c} n = \displaystyle\prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} \end{array}$$ Array (1 Column) $$\begin{matrix} n = \displaystyle\prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} \end{matrix}$$ Matrix (1 Column) $$n ~=~ \prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)}$$ Extra Spacing $$\begin{array}{ccc} n & = & \displaystyle\prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} \end{array}$$ Array (3 Column) $$\begin{matrix} n & = & \displaystyle\prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} \end{matrix}$$ Matrix (3 Column)

### Test 2

 $$\cdot~ \prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} ~\cdot$$ $$|~ \prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} ~|$$

### Test 3

 $$\begin{array}{ccc} \cdot & \cdot & \cdot \\ \cdot & \displaystyle\prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} & \cdot \\ \cdot & \cdot & \cdot \end{array}$$ Array (3 Column) $$\begin{matrix} \cdot & \cdot & \cdot \\ \cdot & \displaystyle\prod_{k = 1}^{\ell} \text{p}_{i(k)}^{j(k)} & \cdot \\ \cdot & \cdot & \cdot \end{matrix}$$ Matrix (3 Column)

## Workspace

Assertions of these relations can be read in various ways, for example:

 $$j : x \lessdot y$$ $$j : y \gtrdot x$$ $$x \lessdot_j y$$ $$y \gtrdot_j x$$ $$x \lessdot y : j$$ $$y \gtrdot x : j$$
 $$j ~\text{sets}~ x ~\text{in}~ y.$$ $$j ~\text{sets}~ y ~\text{on}~ x.$$ $$j ~\text{makes}~ x ~\text{an instance of}~ y.$$ $$j ~\text{makes}~ y ~\text{a property of}~ x.$$ $$j ~\text{thinks}~ x ~\text{an instance of}~ y.$$ $$j ~\text{thinks}~ y ~\text{a property of}~ x.$$ $$j ~\text{attests}~ x ~\text{an instance of}~ y.$$ $$j ~\text{attests}~ y ~\text{a property of}~ x.$$ $$j ~\text{appoints}~ x ~\text{an instance of}~ y.$$ $$j ~\text{appoints}~ y ~\text{a property of}~ x.$$ $$j ~\text{witnesses}~ x ~\text{an instance of}~ y.$$ $$j ~\text{witnesses}~ y ~\text{a property of}~ x.$$ $$j ~\text{interprets}~ x ~\text{an instance of}~ y.$$ $$j ~\text{interprets}~ y ~\text{a property of}~ x.$$ $$j ~\text{contributes}~ x ~\text{to}~ y.$$ $$j ~\text{attributes}~ y ~\text{to}~ x.$$ $$j ~\text{determines}~ x ~\text{an example of}~ y.$$ $$j ~\text{determines}~ y ~\text{a quality of}~ x.$$ $$j ~\text{evaluates}~ x ~\text{an example of}~ y.$$ $$j ~\text{evaluates}~ y ~\text{a quality of}~ x.$$ $$j ~\text{proposes}~ x ~\text{an example of}~ y.$$ $$j ~\text{proposes}~ y ~\text{a quality of}~ x.$$ $$j ~\text{musters}~ x ~\text{under}~ y.$$ $$j ~\text{marshals}~ y ~\text{over}~ x.$$ $$j ~\text{indites}~ x ~\text{among}~ y.$$ $$j ~\text{ascribes}~ y ~\text{about}~ x.$$ $$j ~\text{imputes}~ x ~\text{among}~ y.$$ $$j ~\text{imputes}~ y ~\text{about}~ x.$$ $$j ~\text{judges}~ x ~\text{beneath}~ y.$$ $$j ~\text{judges}~ y ~\text{beyond}~ x.$$ $$j ~\text{finds}~ x ~\text{preceding}~ y.$$ $$j ~\text{finds}~ y ~\text{succeeding}~ x.$$ $$j ~\text{poses}~ x ~\text{before}~ y.$$ $$j ~\text{poses}~ y ~\text{after}~ x.$$ $$j ~\text{forms}~ x ~\text{below}~ y.$$ $$j ~\text{forms}~ y ~\text{above}~ x.$$