Find vo(t) for t > 0 Q#3 and
Q#4
Use the differential equation approach to find Vo(t) for t> 0 in the circuit in the figure below 1k0 Please round all numbers to 3 significant digits. Vo(t)
Question 4 Find i(t) for t >0 for the circuit below. 4Ω 12 V 5 H 3 A
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
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
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
? Part 1 Correct Use superposition to find vo(t), t> 0, in the network shown in the figure below. Ri 1 H 112 ,(1)-211(1) A 1.0 . R2Uo(t
(1 point) If V (t) = 93e-660 mV and i (0) = 85 mA, find is (t) for t>0 <8 mF VS 8 20 mH + 24 mF iz(t) = -107.283e^(-36t)+19 mA
The circuit shown has been in opera neration for a long time. At t=0, the source voltage suddenly jumps to s to 250V. Find vo(t) for t >0. 8KO 160 mH 50 V 10 nF ()
(2) The circuit is at steady state for t<0. Find v(t) for t>0. Answer t=0 ZF Navt)14 T
Chapter 14, Problem 14.18 For the network shown in the figure, find vo(t), t > 0, using mesh equations 2? 3 H 2 2u(t) A 2 Find Vo(t) att 1 s 4 the tolerance is +/-2%