The switch in the figure below OPENS at t=0. Find the total response for the current through the inductor, i(t), for t> 0 for the circuit below. HINT: source transformation helps! 20 pts OPENS 30 V mu
Problem 5: The switch in the network below opens at t-0s. Solve o(t) for t> Os 七"OS. 2kn 2-5t Answer: 10 (t)--e-mA, t 〉 0 (note: τ = 9/5 s = 1.8s) 3
Problem 07.004 - Source-free RC circuit The switch in the given figure has been in position A for a long time. Assume the switch moves instantaneously from A to B at t = 0. Find v for t> 0. Assume R = 1 k12. 5 kΩ Α + B 10 uF V 40 V E SR The voltage v(t) v(0) e-t/t, where v(0) = V and τ= S.
2. Given 10 pF 50 V( o(t) 1k10 Figure 1 (a) (10 points) The switch in the circuit below has been closed for a long time and it opens at t -0. Find vo(t) for t>0. (b) (5 points) Use MATLAB to plot vo(t) for t>0.
Find the output voltage vo(t) in the circuit given below, where Is = 1.7 A. t=0 W 1092 1H + Is 592 10 mF vo The value of Vo(t) = [Ate Bt]u(t) v where A = and B =
“Before the switch closes” The circuit is at steady state before the switch opens at time t-. The input to the circuit is the vol tage of the voltage source, 12 V. The output of this circuit is the voltage across the capacitor,v() Determine v() for t>0. Show al work. 10k2 12 V
The switch in the figure given below moves from position 1 to position 2 at t = 0. Find v(t), for all t> 0. Assume: V1 = 18 V. t=0 + 2 + V 10 mF ע 0.25 H The value of v(t) = (Click to select) |t)] u(t) V.
Problem : The switch has been in position A for a long time. Att 0 the switch is moved to B. Determine v(t) for t > 0 and calculate its value at t = 2s and t = 6s. 24 V 5 kQ 0.5 mF 30 V
In the figure below, we have a switch that opens or closes alternately for one second. Assume that, before t = Os, the switch has been open for a long time. It closes at t = Os, opens again at t = 1s, closes at t = 2s and so on. Assuming V = 6 V, R = 3 MS2, and C = 2 u F, what is the voltage across the capacitor at t = 1.6 s? a sn...
2. The following RC circuit is given. Vout(t) R> c = = At t = 0, the switch closes. V is a constant voltage and Vout(0) = 0 V. Using natural frequencies method, find the output voltage, Vout(t) and plot it. Now, change the location of the capacitor, C, as shown below. Assume the voltage across the capacitor is 0 V at t = 0. How does Vout(t) change? Plot the waveform for Vout(t). Vout(t)