6. Find ict) and i(t) in the network of Figure 6 i(r) ico 60Ω ot) 120...
4) Find the value of each resistor for the network of the Figure below. ER 120 v ŽRT 32R 5) For the network of the Figure below (a) Find the currents I, and 14. (b) Calculate the voltages V, and V3. 10 R; = 272 E60 R22707 1 2) For the network in the Figure below (a) Determine the current I. (b) Calculate the currents 12 and 13. (c) Determine the voltage level Va. E = 20 V RX30 TO...
5. Given the circuit in Figure 5 and i(t) = I cos(@t) A, find the transfer function H(w) = V/I 10 22 WW + i(t) 10 22 vo(t) 20 mH Figure 5
(a) In the network in the accompanying figure, find i(t) for t > 0. (b) If vC1(0–) = – 13 V, calculate vC2(0–). Please round all numbers to 3 significant digits. (a) In the network in the accompanying figure, find i(t) fort > 0. (b) If Vc1(0-) = - 13 V, calculate vc2(0-). + °C (t) HE 0.8 F + 13e-5łu(t) v 0.2Fvc2(t) Please round all numbers to 3 significant digits. (a) i(t) = *e Edit A (b) Vc2(0-) =...
P4.67 Solve for i(t) for t > 0 in the circuit of Figure P4.67 with R-500. given that i(0+) 0 and v(0+) 20 V. [Hint: Try a particular solution of the form (1) = A cos(100r) B sin(100r).] t=0 I H 20 sin(1001) i(t) It(r) 100 ?F Figure P4.67
Chapter 6, Problem 6.72 Find Lt in the network in the figure (a) with the switch open and (b) with the switch closed. All inductors are 18 mH. LT- @ mH @ mH
1. Find 10 in the network from following figure using superposition theorem only. 12 kn 120 6 mA 12 V 6 kn 6kn
R t = i(t) C 2011P E e p gP a P9.09 10ed The voltage applied to this circuit at t 0 (when the switch closes) is v (t) = 75 cos (4,000t - 60°) Volts Also given that R = 400 2 (0hm) and L=75 mH (milli Henry) The initial inductor current is zero for t< 0 The textbook gives you the total response equation as: )_ ?(0-¢)so R2+(w L) Cos(wt+¢-e) -V V m i(t)=itransient(t)+isteady.state(t)=R2 +(wL m - ㅎCOS...
Given the network in fig., find v(t) for t>0. 2 A 1 H 4Ω 6 A 1Ω 0.03 F v (t) = cos sin
4. (a)Find the Thevenin equivalent circuit for the network external to the resistor R in Figure 4. (b)Find the current through R when R is 22, 302, and 100 S2. Figure 4 5. (a)Find the Thevenin equivalent circuit for the network external to the resistor R in Figure 5. (b)Find the power delivered to R when R is 2 k2 and 100 3000 11 04ko 21.20 Figure 5 6. (a)Find the Thevenin equivalent circuit for the network external to the...
Find Vo in the network in the figure using loop analysis. Find V. in the network in the figure using loop analysis. 6 ν(Ε) (14 mA 1 ΚΩ T + VO - –ΛΛΑ 2 ΚΩ 32 ΚΩ 31 ΚΩ ( 3 mA