3. Obtain v,(t) and i(t) in the circuit shown below: 0.2 Fv() 2Ω 40V
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
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)
2. Use nodal analysis to find the voltage V in the circuit shown | 2Ω -ΠΩ 620° 2Ω 4Z45 Α ,45° ,
For the circuit shown in figure 7, find the node voltages Vi. V2 and Va nalysis 12 (4 V 2Ω 4 A Fig.7 h. For the circuit shown in figure 7, find the mesh currents I, la, and Is
For the circuit shown in figure 7, find the node voltages Vi. V2 and Va nalysis 12 (4 V 2Ω 4 A Fig.7 h. For the circuit shown in figure 7, find the mesh currents I, la, and Is
#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
a) Use MultiSim to find Vo in the circuit below. Paste your
Multisim circuit showing the value of Vo in the space below.
b) Use mesh analysis to solve the same problem by hand. Show
your work in the space below. Compare the Multisim answer to that
obtained by hand. Are they the same?
5 A 2Ω 20 V 412 40 V (+ V: 27.1 V V(PP): 2.07 pv V(rms): 0Vv V(dc): 27.1V V(freq): 5A R2 R3 PR1 R1 2Ω...
Find i(t) for t>0 for the circuit in Fig. 16.37 Assume i(t)- [6(t) + 35(t)]mA 16.14 1Ω i(t) ist) ( 0.2 H 2Ω
Problem 2 Obtain the second-order ODE describing the capacitor voltage v(t) in the series RLC circuit shown below. Hint: Confer with Problem 3.14 in the textbook and use i()for the loop current. 1S2 1 H v(t) (t 2F)
4. (SLO #4) The initial capacitor voltage of the circuit shown is v.(0-) = 3 V. Determine the voltage v(t) at t = 0.2 s and t = 1.8 s when 1357 A 0 <i<1 11s + im Ô C 0.2 F uc
How are the equivalent impedances obtained in the figure? Please
be clear and specific.
i 2Ω WM 12.5 mF rad 20 50 mH 2Ω The equivalent impedances in this circuit at ω=20 rad/s are shown in the figure. The capacitor and the inductors are in parallel with each other. The equivalent impedance of these components is ε il Ω
i 2Ω WM 12.5 mF rad 20 50 mH 2Ω The equivalent impedances in this circuit at ω=20 rad/s are shown...