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« Prev 1 2 ... 2601 2602 2603 2604 2605 2606 2607 2608 2609 ... 2865 2866 Next »: $\pi_{[z]} = \frac{0\alpha_{[x],\mathrm{max}} \alpha_{[y],\mathrm{max}}- 0.838(\alpha_{[x],\mathrm{max}}+\alpha_{[y],\mathrm{max}})+ 0.352}{\beta}$; $\pi_{[z]} = \frac{\alpha_{[x],\mathrm{max}} \alpha_{[y],\mathrm{max}}- 0.838(\alpha_{[x],\mathrm{max}}+\alpha_{[y],\mathrm{max}})+ 0.352}{\beta}$; $\pi_{[z]} = \frac{0.4\alpha_{[x],\mathrm{max}} \alpha_{[y],\mathrm{max}}- 0.838(\alpha_{[x],\mathrm{max}}+\alpha_{[y],\mathrm{max}})+ 0.352}{\beta}$; $\pi_{[z]} = \frac{0.\alpha_{[x],\mathrm{max}} \alpha_{[y],\mathrm{max}}- 0.838(\alpha_{[x],\mathrm{max}}+\alpha_{[y],\mathrm{max}})+ 0.352}{\beta}$; $\pi_{[z]} = \frac{0.49\alpha_{[x],\mathrm{max}} \alpha_{[y],\mathrm{max}}- 0.838(\alpha_{[x],\mathrm{max}}+\alpha_{[y],\mathrm{max}})+ 0.352}{\beta}$

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