2. Find i。() for ț 〉 0 in the circuit below. 2Ω 1 92 1 F 2t 0.5/% IH 2. Find i。() for ț 〉 0 in the circuit below. 2Ω 1 92 1 F 2t 0.5/% IH
1. Find vfor t> 0 if the circuit is in steady state at t 0 Ans: -4e2" (cos 2t +sin 2t) +4 Volts 2Ω 1 H -0 2Ω 1
The switch closes at t 0 in the circuit shown. Determine v) if e(t)-10 sin(2t). 2Ω t 0 e(t) 0.1Fc(t) (a) vc() 3445etcos(2t) +8.620sin(21) (b) c(t) 3445e cos(2t)+17241sin(2t) (o) vet) 3445e +8.620sin(2t)-3.445 cos(2t) (d) vc(t) 3445e +17.241sin(2t)-3445cos(2t) Select the one best answer from the choices given below. a. Answer choice (a) b.Answer choice (b) C.Answer choice (c) d.Answer choice (d)
Find V I, and the energy stored in the capacitor and inductor in the circuit below 2Ω 0.5 H 52
Problem 4 = 20A Find i(t) and v(t) for t > 0 in the circuit below if i(0) 2 H 202 5Ω v(t) 1Ω Problem 5 If the switch in circuit below has been open for a long time and is closed at t = 0, find vo(t) a. Suppose that the switch has been closed for a long time and is opened at t = 0. Find vo(t). b. t = 0 2Ω WW 3 F 4Ω 18 V
In the circuit below, let R1 = 1.12, R2 = 0.5 12,67 = 1 F,C2 = 2 F. Find the impulse response h(t) of the circuit between the input vs(t) and Yout! DC (0 ) Dout
ctor6 Find vc i, and the energy stored in the ca and inductor in the circuit of Fig. 6 conditions. pacitor der de .69 un 2Ω ЗА 4 22 0.5 H 5 92 Figure 6.69 For Prob. 6.46
4. (10.6) Find the output voltage (as a phasor) in the circuit below. j1 Ω 2Ω W 2020° 192 5/20 5. (10.42) Find the currents and voltages (as phasors) in the circuit below containing an ideal transformer. WW th ot 20 7602 20200 & 10 6. (10.43) Find the voltage (as phasor) in the circuit below containing an ideal transformer. 2:1 2:1 rün 402 W W of 22 2020 -120 lllll j622 lo 7. If Li - 30 mH, L2...
Find I, in the circuit of Fig. 2. 4Ω Ι, 22 2Ο | -2Ω j6Ω 60/30° V (4) ξ8 Ω 3 10 Ω Figure 2
#1. Use Thevenin's Theorem to find the voltage V, in the circuit below. 3 Ω 2Ω Ο Ο + 50 V 6Ω Σ 0.5υ, & 10 Ω ob
Given i(t) 3e2 A, find vc(1) for the circuit shown in Figure 7.3. 10 92 i(t) Velt)1/5 F Figure 7.3 Velt)- 30e2 v
Given i(t) 3e2 A, find vc(1) for the circuit shown in Figure 7.3. 10 92 i(t) Velt)1/5 F Figure 7.3 Velt)- 30e2 v