changes.mady.by.user Arthur Aslanyan (Nafta College)
Saved on Jan 19, 2019
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A_e \, h_e \int_{p_i}^p \phi_e(p) \, c_t(p) \, dp = \Delta Q (t) = Q^{\downarrow}_t(t) - Q^{\uparrow}_t(t) + Q^V^{\downarrow}_{GC}(t) + Q^V^{\downarrow}_{AQ}(t)
p^{\uparrow}_{wf}(t) = p(t) - \frac{1}{J^{\uparrow}} \frac{dQ^{\uparrow}}{dt}
p^{\downarrow}_{wf}(t) = p(t) - \frac{1}{J^{\downarrow}} \frac{dQ^{\downarrow}}{dt}