changes.mady.by.user Arthur Aslanyan (Nafta College)
Saved on May 22, 2023
p_{e,n} \ (t) = p_{i,n} \ (0) + \gamma_n^{-1} \cdot \sum_m \left( Q^{\uparrow}_{nm} + Q^{\downarrow}_{nm} \ \right)
p_{{\rm wf}, n} \ \ \ (t) = p_e \ (t) + 0.5 \cdot J_{On}^{-1} \cdot \left[ q_{On}(t) + f^{\uparrow}_{nn} \cdot \frac{\mu_W}{\mu_O} \cdot \frac{k_{ro}(s_{wn})}{k_{rw}(s_{wn})} \cdot q_{Wn}(t) \right]
s_{wn} = \left[ 1 + \frac{B_o}{B_w} \cdot \frac{q_{On}}{ff^{\uparrow}_{nn} \cdot q_{Wn}} \right]^{-1}
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