9.31 Find i() and v() in each of the circuits of Fig. 9.44. 10 cos(31 +...
For Prob 9.5 9.47 In the circuit of Fig 9.54, determine the value of i,Cr If V.-8/30" V in the circuit of Fig. 959. find l," 9.52 2miH ら(n20 115 cos 2,000, v C Figure 9.59 For Prob. 9.52 Figure 9.54 For Prob. 9.47 9.53 Find I, in the circuit of Fig. 9.60 9.48 Given that v,(,) = 20 sin( 100,-40") in Fig. 9,55. determine i,) 4Ω ML 10 Ω 3052 , tn) ( 10Ω 160 430 V 8Ω Figure...
1.19 Find I and the power absorbed by each element in the network of Fig. 1.30. 8A9v 6 Figure 1.30 For Prob. 1.19. 1.20 Find V, and the power absorbed by each element in the circuit of Fig. 1.31. 1.- 2A 28 V 12 V TIA 28 V 30 V + 6A1 Figure 1.31 For Prob. 1.20.
XFRM XFRM Spice to find i, i2, and ij in the circuit displayed in Fig. 13.53. 12-70 Ω 2 H 1 H 100 2 3H зн 2 H 4 H 1.5 H +40 cos 12nt V 60 cos (12rt -10) V (+ 270 F Figure 13 For Exampi 13.13
Problem-4 Find i(t) and v(t) in each of the circuits below. 8Ω 50cos 41V(±
11.10 The circuit shown in Fig. P11.10 uses a 12-V ac source to deliver power to an 8-Ω speaker. If the average power delivered to the speaker is 1.8 W at an audio frequency f= 1 kHz, what is the value of the coupling coefficient k? 4Ω 12 cos 2z/t (V) 3mH 12 mH 8Ω Figure P11.10: Circuit for Problem 11.10.
3.6 Find the equivalent resistance Raib for each of the r each of the circuits in Fig P3.6. 120041 320 Ω 720 Ω 480 Ω 45 Ω 25 Ω | 30 Ω 102 202 20 Ω 1811 50Ω 40 Ω 12 Ω 20 Ω 30 Ω
circuits
Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI function of o. ) as a 250 kS2 500 k2 O Vo 0
Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI...
3.27 The I-V characteristic of N, for Fig. 3.40 is given in Fig. 3.17(b). Find the power entering Ni lo 6 mA lo / I Nil R1 800 Ω R2 400 Ω FIGURE 3.40
Problem # 1: Consider the circuit of Fig. 1: a) If vc(0) 8 V and i,(t) 40 S(t) mA, find Vc(s) and vc(t) fort>0 b) If ve(0) 1 V and ) 0.2 e u(t) A, find Vc(s) and v(t) fort>0 Problem #2: The circuit in Fig. 2 is at steady-state before t-0. a) Find V(s) and v(t) for t>0 b) Find I(s) and i(t) for t>0 5 S2 10 - 10u(t) V 6 H v(t) i(t). 130 F Figure 1...
4. For each of the following circuits, determine is and v immediately after the switch is closed. That is, find is(0") and UL (0+). All voltage sources are 20 V, all resistors are 10 Ω, and all inductors are i H (Hint: it is perfectly acceptable to simulate these circuits if you are having a hard time understanding how they will function!) UL UL 2%, UL