The switch in the circuit shown in the Figure is closed at t = 0. The current i(t) for t>0 is:
The switch in the circuit shown in the Figure is closed at t = 0....
(3) The RL circuit shown in Figure 3 has a switch that is closed att 0. Assume that the circuit has reached steady state prior to the switch closing. You are given R1 1 kQ, R2-10 kQ, R3-R4-100 k2, L 10 mH, Vs-5 V. (a) [15 pts] Calculate the steady-state inductor current before the switch is closed (b) [16 pts] Give the differential equation as an expression of the inductor current fort>0 (i.e. write the differential equation) (c) 13 pts]...
QUESTION 4 For the circuit in the figure shown below, the switch is closed at t = 0 s. Determine the value of the inductor current il at t = 10 us. (Select the one best answer from the choices given below. + 2 1000 chans 10 mH a. Oma 6.2.0 mA c.2.8 ma d.3.6 MA e.4.4 mA f. 5.2 ma 5.6.0 mA 1.6.8 mA i 7.6 mA j. 8.4 mA k. 9.2 mA l. 10 mA
The switch in the figure shown is closed at t=0 when the current, i, is zero, when i-15.0mA, what is the potential difference across the inductor? 5. 12 mH 240 V 4.0 kQ
Q3. In the circuit shown below, switch S has been closed for a very long time and it is opened at t = 0. Find the solution for the current i(t) passing through the inductor. Q4. In the circuit shown, the initial capacitor voltage is v(0) =5 V. (a) Find the capacitor voltage v(r) for t > 0. (b) Find the current io(t).
The switch is closed at time t = 0. The battery, shown in the figure has a voltage of 3.21 Volts. The capacitor is initially uncharged. For the circuit below, with Resistance 8.95 Ohms and Capacitance 5.65 Farads, what is the energy in Joule stored in the capacitor at time t= 4.09 seconds?
b) For e circuit shown in Figure 4, the switch S is closed at t = 0. the voltage v (t) across the inductor L, given that v(t) = Vsin2nt ft. R = 100 O [6 points) Calculate the voltage v, (t) ac L = 318.3 mH and f = 50 Hz. Figure 4.
The switch S of the circuit shown below is closed at t = 0. 6.02 3.5 H -0000 12 V 7.00 7.0H (a) Determine the initial current through the battery (in A). (b) Determine the steady-state current through the battery (in A).
6–35 The switch in the circuit of Figure P6–35 is closed at t = 0, and the circuit is ini- tially relaxed. Determine the current iſt) and the voltage vct). FIGURE P6–35 2 H 42 20 v F vclt) 0-3 overdamped; 1000, 2000 6–35 587 sin 2t, 20 + 22.36€ + sin(2t - 116.57°)
Problem 1: /10 A) For the RL circuit of Figure 1, the switch is closed at t=0 (charging phase). Report the time constant of the circuit T1 , voltage V, and current i, at time t = t1/2 23 82H £292 3v 20 20 Fig. 1: EMILM B) At time t = t;/2 , the switch in the RL circuit of Figure 1 is opened (discharging phase); Report the time constant of the circuit ta , voltage V, and current...
2. Consider the circuit shown below. The switch in the circuit is closed at t = 0 and at that moment, the inductor is in DC steady state. Fill in the table below. t-0 1Ω 1 A i,(t) 3 V 5Ω 5 Q 1 H