Initial condition at ( t = t_1^+ ): ( V_C(t_1) = 9.93 \text V ) (continuity of capacitor voltage).
With ( i(t) = C \fracdV_Cdt ), we get:
[ \boxed\tau = 100 \ \textms ] At ( t_1 = 0.5 \ \texts ): exercice corrige electrocinetique
[ E = V_R(t) + V_C(t) = R i(t) + V_C(t) ] Initial condition at ( t = t_1^+ ): ( V_C(t_1) = 9
[ V_C(t_1) = 10 \left(1 - e^-5\right) \approx 10 (1 - 0.0067) \approx 9.93 \ \textV ] The capacitor is almost fully charged. The source is disconnected, and the capacitor discharges through ( R ). The differential equation becomes: exercice corrige electrocinetique
Thus ( B = 9.93 \ \textV ).