Alternative Equation Formats

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MathML

L = E f Θ ( y ) E t , t l = τ l f Θ ( y ) F Θ ( t r ) E t , t l > τ l f Θ ( y ) F Θ ( t r ) F Θ ( t l ) 1 p p C F Θ ( c l ) F Θ ( c r ) C t , t l = τ l F Θ ( c l ) F Θ ( c r ) F Θ ( t r ) C t , t l > τ l F Θ ( c l ) F Θ ( c r ) F Θ ( t r ) F Θ ( t l ) 1 p p

Math Rendered as SVG

Math as LaTeX Source

\begin{align*} L = & {\displaystyle \prod _{E} f_\Theta (y)} {\displaystyle \prod _{E_ t, t^ l = \tau ^ l} \frac{f_\Theta (y)}{F_\Theta (t^ r)}} {\displaystyle \prod _{E_ t, t^ l > \tau ^ l} \frac{f_\Theta (y)}{F_\Theta (t^ r)} F_\Theta (t^ l)^{\frac{1-p}{p}}} \\ & {\displaystyle \prod _{C} F_\Theta (c^ l) - F_\Theta (c^ r)} {\displaystyle \prod _{C_ t, t^ l = \tau ^ l} \frac{F_\Theta (c^ l) - F_\Theta (c^ r)}{F_\Theta (t^ r)}} {\displaystyle \prod _{C_ t, t^ l > \tau ^ l} \frac{F_\Theta (c^ l) - F_\Theta (c^ r)}{F_\Theta (t^ r)} F_\Theta (t^ l)^{\frac{1-p}{p}}} \end{align*}
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