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Problem 3.4 Consider the circuit in Fig. 3.4. The op-amp is ideal, v₁ = 10 V, RI=R2=R= 10 KQ, C1 = 20 μF, and C2=0.1 mF.
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Problem 3.4 Consider the circuit in Fig. 3.4. The op-amp is ideal, v₁ = 10 V, RI=R2=R= 10 KQ, C1 = 20 μF, and C2=0.1 mF.
Problem 3.4 Consider the circuit in Fig. 3.4. The op-amp is ideal, v₁ = 10 V, RI=R2=R= 10 KQ, C1 = 20 μF, and C2=0.1 mF. Initially, there is no energy stored in the system. The switch is closed at t = 0. (a) Determine the differential equation for the voltage vo(t) for t> 0. Hence, determine the damping factor and the natural undamped frequency of the system. (b) Determine the final values of the voltages vi and v2. (c) Solve the differential equation to determine the voltage vo(t) for t>0. 1-0 "I' Fig. 3.4 2R