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Jonathan Nichols edited $n^{th}$ Order Irreversible Decay.tex
over 9 years ago
Commit id: 65cdaec36c079bcab8105d3cacb8147a64753270
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diff --git a/$n^{th}$ Order Irreversible Decay.tex b/$n^{th}$ Order Irreversible Decay.tex
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\end{equation}
Following length, the Fisher divergence is the integral of the cumulative time dependent rate coefficient squared over a period of time $\Delta{t}$. The Fisher divergence is
\begin{equation}
\frac{\mathcal{J}( \Delta t)}{\Delta
t}=\int_{t_i}^{t_f}{(n-1)^2\omega^2}([A_0]^{n-1})^{2}}} t}=\int_{t_i}^{t_f}{(n-1)^2\omega^2}([A_0]^{n-1})^{2} dt
\end{equation}
The inequality becomes
\begin{equation}