For the circuit below, find the complete response i(t) for t>0. 25/82 ult) nooooo 40 mF...
Question 4 Find i(t) for t >0 for the circuit below. 4Ω 12 V 5 H 3 A
In the circuit given below, V = 28 V. Find it for t> 0. 32 1 H iſt) 40u(t) A 192 V 40 mF O 10 = [8.729 sin(4.5830e-29410) A O 10 = [218.232 cos(4.5831)e-2940 A it = [218.232 sin(4.5831e-2]40) A O 10 = [8.729 COS(4.583 18-2010 A
Find i(t) for t> 0 in the given circuit. Assume v;= 34 V. t=0 10 22 6022 [i(t) 1 mF Vi + 40 Ω 2.5 H O (0) = –10.88te-20+ (0) A i(t) = -27.20 te-20tu(t) A i(t) = 13.60te-20tu() A O i(t) = –17.00 te-20t4() A
1. Find Do(t) nd oolt) for t>0 in the network, assume the circuit was in steady state before t>0. 200 μF 24v (+ volt)
Find v for t>O if the circuit is under de condition at t=0-. t = 0 w 16 Ω 82 + 242 1/36 F + + 20V 8V Annor.
8.5 Find i for t> 0 if (0) 4 V. 6Ω 2i V 3Ω PROBLEM 8.5 8.6 Consider a source-free circuit that has a response v(t) Voe. Show that a stra
Find i(t) for t> 0 in the op amp circuit of Fig. P4. (u(t) is unit step function. It is 1 for t> 0 and 0 for t<0.) 1/6F It 3 Ω 212 + 2 u(t) V 1/6 F 10 Ω Figure P4
Problem 8 In the given circuit i(0) = 3A Determine: a) i(t) (5 points) and b) vo(t) (5 points) for t > 0 cos(5t) A 0 3h 5 *,
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
Chapter 7, Problem 7.015 Use the differential equation approach to find i(t) for t > 0 in the circuit in the figure below. i(t) 6 mA 1 kS2 2 k2 4 mH Please put all numbers as integers. Click here to enter or edit your answer mA i(t)