Webㄥ FIGURE 9.39 The circuit shown schematically in Fig. 9.39 is constructed using R- 20 m2 C= 50 mf, and L = 2 ml. (a) Find an expression for 4r(1) valid for 1 > 0 if v(O+) = 0 and i (0° ) = 2 mA. (b) Sketch your solution over the range of < 500 ms. (c) Simulate the circuit using PSpice. Submit a properly labeled schematic with your plot. WebFor the circuit shown in Fig. 14.73, find H(s) = Io (s)/Is (s). Figure 14.73 For Prob. 14.6. Chapter 14, Solution 6. 1H jLsLs⎯⎯→==ω Let //1 1 s Zs s == + We convert the current source to a voltage source as shown below. 22 (1) 1 1(1)311 1 ss os s s Z s sI sI VIx I Z ssssss s s == ==+ ++ + + + +++ + 1312 os o VsI I ss == ++ 2 31 o s I s ...
Solved Determine il (t) for in the circuit of Fig. P12.21 for
WebDetermine Vo in the circuit in Fig. 2.80.I would be feeling sincerely thankful if y'all can subscribe, comment, and like each video to support this channel b... WebTitle: Scan-to-email Author: Copier User Created Date: 11/16/2010 11:20:32 AM toby branford london
Solved 6.13 Determine il(t) in the circuit of Fig. P6.12 and
WebDetermine il(t) for in the circuit of Fig. P12.21 for t=16 ms, given that the switch was opened at t= 0 after it had been closed for a long time, vs = 12 mV, RO = 50, R1 = 10 A, R2 = 20 . L = 0.2 H, and C = 6 mF. ... Determine the the 27th percentile for the number of chocolate chips in a bag. (b) Determine the number of chocolate chips in a ... WebProblem 6.36 Determine iL (t) and iC (t) in the circuit of Fig. P6. 36 and plot both waveforms for t ≥ 0. The SPDT switch was moved from position 1 to position 2 at t = 0.. 10 Ω 1 2 t=0 iL + 12 V _ iC 2Ω 10 6 H 0.1 F. Figure P6.36: Circuit for Problem 6.36. WebFig. 39 42) For the circuit shown in figure40,determine the phasors E2,E0,I and I1 Fig. 40 43) The circuit shown in figure41 is operating in steady-state with switch S1 closed. a) Find iL(0+) b) Find e1(0+) c) Using nodal equations and Laplace trans-form approach,find an expression for the voltage across the capacitor for all t > 0. Fig. 41 toby breckon durham