Alternative Equation Formats

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MathML

\begin{array}{lclcl} P Z E R O & = & ω & = & μ_{z} \\ P R E D / I L I N K & = & p_{c} & = & μ (1 - ω) \\ S T D / I L I N K & = & s_{c} & = & \sqrt{p_{c}^{2} v_{2} + (1 - ω)^{2} v_{1} + v_{1} v_{2} + 2 p_{c} (1 - ω) v_{12} + v_{12}^{2}} \\ U C L M / I L I N K & = & u_{c} & = & p_{c} \exp (Φ^{- 1} (1 - α / 2) s_{c} / p_{c}) \\ L C L M / I L I N K & = & l_{c} & = & p_{c} / \exp (Φ^{- 1} (1 - α / 2) s_{c} / p_{c}) \\ P R E D & = & p_{l} & = & g (p_{c}) \\ S T D & = & s_{l} & = & g (s_{c}) / (\frac{d μ}{d η}) \\ U C L M & = & u_{l} & = & g (u_{c}) \\ L C L M & = & l_{l} & = & g (l_{c}) \end{array}

Math Rendered as SVG

Math as LaTeX Source

\[ \begin{array}{lclcl} \mr{PZERO} & = & \omega & = & \mu _ z \\ \mr{PRED/ILINK} & = & p_ c & = & \mu (1-\omega )\\ \mr{STD/ILINK} & = & s_ c & = & \sqrt{p_ c^2v_2+(1-\omega )^2v_1+ v_1v_2+2p_ c(1-\omega )v_{12}+v^2_{12}} \\ \mr{UCLM/ILINK} & = & u_ c & = & p_ c\exp (\Phi ^{-1}(1-\alpha /2) s_ c/p_ c) \\ \mr{LCLM/ILINK} & = & l_ c & = & p_ c/\exp (\Phi ^{-1}(1-\alpha /2) s_ c/p_ c) \\ \mr{PRED} & = & p_ l & = & g(p_ c) \\ \mr{STD} & = & s_ l & = & g(s_ c)/(\frac{\mathrm{d}\mu }{\mathrm{d}\eta }) \\ \mr{UCLM} & = & u_ l & = & g(u_ c) \\ \mr{LCLM} & = & l_ l & = & g(l_ c) \\ \end{array} \]