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  • <math> {u_{wj}}^2 = \Large \frac{2}{T_{wj}}\int_t^{t+T_{wj}} \normalsize u^2(t) \ dt + 2 \ {U_c}^2 \ sin^2\varphi \qquad (18) </math> ...ga_{cr}</math> then <math>\Omega_j = \omega_j \ \Large \frac{2 \ W_s \ T_{wj}}{d} \normalsize </math> and <math>\Omega'_j=0, </math>
    36 KB (5,680 words) - 16:54, 31 August 2022