Your turn: Solve for i1(t) in the following third-order circuit. Assume that the circuit was in d...
Please solve the two problems shown and show work. thank you! 5) In the following circuit find an equation for v(t) the voltage across the capacitor for t>O. You may assume the circuit is in the steady-state just before the switch opens at t-0. 6 N 50 -Mu IH 3 10 ml Add equation 6) For the following circuit find an equation for v(t) fort > 0. You can assume that the circuit had reached the steady-state condition before the...
Please solve this second-order op amp circuit without using the laplace transform. Solve for the opamp output voltage (v(t) for t> 0. Assume the circuit is in steady-state before 0 and that all node voltages before the switch closes are zero. 1nF 1nF v(t) t-0 v(t) - Solve for the opamp output voltage (v(t) for t> 0. Assume the circuit is in steady-state before 0 and that all node voltages before the switch closes are zero. 1nF 1nF v(t) t-0...
QUESTION Cyril the Circuit Analyst is examining the interaction of both AC and DC sources with a circuit. The circuit is drawn below. Pay careful attention to the arrows on the switches which show which are initially open, and which are initially closed. Assume that the capacitor is initially discharged at 0. All times are in seconds 10 mH 1-Os1-1s!=2s \ t = 5s 400 | 10cos(ox) 50 pF 10 mA At 0, the first switch closes connecting the current...
solve without laplace transform Solve for the opamp output voltage (v(t) for t> 0. Assume the circuit is in steady-state before t-0 and that all node voltages before the switch closes are zero. 1nF 1nF v(t) t-0 v(t) Solve for the opamp output voltage (v(t) for t> 0. Assume the circuit is in steady-state before t-0 and that all node voltages before the switch closes are zero. 1nF 1nF v(t) t-0 v(t)
Calculate i(t) for t > 0 in the circuit shown. Assume the circuit is at steady state before the switch opens.R1=30 kohm, R2=60 kohm, R3=60 kohm, V2=8V, V3=2V, C1=2 microfarad
Values of v()/V = -1/ IR + (1)/V V R T 21 31 0.36788 0.13534 0.04979 0.01832 0.00674 ST Figure 1: A source free RC circuit. Table 1: values of the exponential term for different t Observe from the table 1 that the smaller the time constant, the more rapidly the voltage decreases, that is, the faster the response. This is illustrated in Fig. 2. A circuit with a small time constant gives a fast response in that it reaches...
Assume that the inductor in this circuit is an ideal (lossless) device, initial current is 0A. At t=0, turn on the switch; at t= 5t, turn off the switch. a-f please 2. Assume that the inductor in this circuit is an ideal (lossless) device, initial current is OA. At t-o, turn on the switch; at t. 5 τ, turn off the switch. (50pts) For 0 s t s5r: switch on a) Find the Thevenin equivalent circuit for the circuit inside...
Problem 2:(20 points) Consider the RC circuit in Figure 2. You may assume that the switch has been opened long enough for the voltages and currents to reach steady-state values. At time t = 0 the switch is closed. t-0 Figure 2: The switch in the RC circuit is closed at timet0 1. (6 points) Find the voltage v(0-) and the current i(0) just before the switch is closed. 2. (6 points) Find the voltage v(0+) and the current i(0+)immediately...
Problem 1:(20 points) Consider the RL circuit in Figure 1. You may assume that the switch has been closed long enough for the voltages and currents to reach steady-state values. At timet 0 the switch is opened. 1 0 Rs Ri Figure 1: The switch in the RL circuit is opened at time t 0 1. (6 points) Find the voltage v(0-) and the current i(0) just before the switch is opened. 2. (6 points) Find the voltage v(0+) and...
2 First-Order RC Circuit: Natural Response The switch in the circuit in Figure 2 has been in position for a long time. At t = 0, the switch moves to position (the switch opens) and stays there. Assuming that V. > O for the constant voltage source, (a) find vc(0-), vc(0+), ic(0-), and ic(0+); (b) find vc(t) when t 20 (if you want, you can write vo(t) by circuit inspection; you don't need to show the differential equation); and (c)...