changes.mady.by.user Arthur Aslanyan (Nafta College)
Saved on May 21, 2018
Saved on May 22, 2018
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p_{wf}J = \frac{q(t) = }{p_r(t) - \frac{qp_{wf}(t)}{J} = \rm const
pc_r(t) = p_i +\equiv \frac{1}{V_{\phi}} \cdot \frac{1}{c_t \, {dV_{\phi}}{dp} = \frac{1}{V_{\phi}} \, \cdot \frac{1}{p_i - p_r(t) } \cdot \Bigg[ \int_0^t q_i{\uparrow}(\tau) d\tau - \int_0^t q_{\downarrow}(\tau) d\tau \Bigg] = \rm const
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