V1 S1 L2 (a) ww R2 AICH) V₁ = 10v. C1 ww R1 ww R4 Given the circuit in figure 7 with values R3000 R-1000, R-5000, R-70002 C-1F 1H, L-05H, V₁-10V. You are NOT allowed to solve the circuit with phasors, all calculations must be done in the time domain f switch S. is initially closed and circuit reaches steady state and is opened at t-0 seconds, answer the following questions Questions (b) and (c) the switch 5, is closed and for questions (d) to (f) the switch Si is opened. Given the below answers for a), b) and c) find the following parts below them please S₁ I, (+) Batt ww vi{t} R3 ellu L₂=0.5H. R₁ = 300 (1₁-1₂) R₂= =1002 It C₁ IUF www Iz(t) b. capacitor voltage at t=0 seconds is v(0) = 10 volts c. current flowing through inductor at t=0`isi,(0) = 6.667 mA 41=1 H R₂ = 500-2. R4 = 70052 d) calculate the natural frequency wo and damping factor a for t> 0 seconds. e) calculate the roots (factors) of the characteristic equation. State if the circuit is underdamped, overdamped or undamped. f) calculate the current flowing through inductor L1 at t = 0+ seconds. g) calculate the change in current flowing through inductor 011(t) at at t = 0+ seconds. h) Using any method, calculate the current flowing through the inductor L1 for t> 0 seconds.

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V1 S1 L2 (a) ww R2 AICH) V₁ = 10V. C1 ww R1 ww R4 Given the circuit in figure 7 with values R-3000, R-1000, R-5000, R-70002 C-1F 1H, L-05H, V₁-10V. You are NOT allowed to solve the circuit with phasors, all calculations must be done in the time domain f switch S, is initially closed and circuit reaches steady state and is opened at t-0 seconds, answer the following questions Questions (b) and (c) the switch S, is closed and for questions (d) to (f) the switch Si is opened. Given the below answers for a), b) and c) find the following parts below them please S₁ I, (+) Batt ww vi{t} R3 ellu L₂=0.5H. R₁ = 300 (1₁-1₂) R₂= =1002 It C₁ IUF www Iz(t) b. capacitor voltage at t=0 seconds is v(0) = 10 volts c. current flowing through inductor at t=0`isi,(0) = 6.667 mA 41=1 H R₂ = 500-2. R4 = 70052 d) calculate the natural frequency wo and damping factor a for t > 0 seconds. e) calculate the roots (factors) of the characteristic equation. State if the circuit is underdamped, overdamped or undamped. f) calculate the current flowing through inductor L1 at t = 0+ seconds. g) calculate the change in current flowing through inductor 011(t) at at t = 0+ seconds. h) Using any method, calculate the current flowing through the inductor L1 for t> 0 seconds.