Suppose the inductor in the circuit shown in (Eigure 1) with a resonant radian frequency of 5000 rad/s has a value of 10 mH. Figure IC C + Vo IR R$ < 1 of 1 > + v ▼ ▼ Part B Calculate the roots of the characteristic equation for R= 150 2. Express your answers in radians per second to three significant figures separated by a comma. Enter your answers in rectangular form. 81, 82= Submit Part C VE ΑΣΦ_11, vec Request Answer Suppose that R 15 2. Determine the damping type of the circuit. O critically damped O underdamped overdamped Submit Previous Answers Part D ✔ Correct IVE ΑΣΦ.41 | vec [y] ? Calculate the roots of the characteristic equation for R= 15 2. Express your answers in radians per second to three significant figures separated by a comma. Enter your answers in rectangular form. 1666.67 1500 rad/s ?

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Suppose the inductor in the circuit shown in (Figure 1) with a resonant radian frequency of 5000 rad/s has a value of 10 mH. Figure + iL L lo IR R} < V 1 of 1 Part B Calculate the roots of the characteristic equation for R = 150 2. Express your answers in radians per second to three significant figures separated by a comma. Enter your answers in rectangular form. S1, S2 = Submit Part C 17 ΑΣΦ ↓↑ vec Suppose that R = 15 2. Determine the damping type of the circuit. Request Answer critically damped Submit O underdamped Ⓒoverdamped Part D Previous Answers ✓ Correct ? VE ΑΣΦ ↓↑ vec 81, 82= - 1666.67, - 1500 Calculate the roots of the characteristic equation for R 15 2. Express your answers in radians per second to three significant figures separated by a comma. Enter your answers in rectangular form. rad/s ? rad/s