In the circuit below, v1 = -2 V and i1 = -4.5 A. Use mesh analysis to find Vx and ix. ne crcat tatalsd 45U mesh 5i 30 Ω 16 Ω i1 20 Ω 10Ω 5Ω 2 Vx 40 Ω 50 Ω 25 Ω V. 10Ω 4 i 2013 Paul Hummel BY NC SA
(1 point) For the circuit below, V1 = 13 V, V2 = 8 V, V3 = -2 V. L1 = 22 mH, L2 = 18 mH, L3 = 46 mH. R1 = 22 12, R2 = 26 12, R3 = 25 12, R4 = 8 12, R5 = 47 12, R6 = 22 12, Find (a) i1, (b) i2, (C) v. 1+ RG V2 min to-rööviz w ell + V3 Zamo 2013 Paul Hummel BY NC SA (A) 11 =...
(1 point) Problem 1 In the circuit below: V1 = 180 V, V2 = -150 V, R1 = 155 12, R2 = 450 S2, R3 = 44 S2, R4 = 97 12. R5 = 119 12, R6 = 1732 Use both resistance and source combinations to find the power absorbed by the R1, R4, and R5 resistors V1 50 R4 I + R1 100 75 R5 w mi 500 g w R6 120 1 + R3 80 V2 2013 Paul...
(1 point) For the circuit below, V,--(162434°) ?, C--j1 52 ?, and R-100 ?. Find V, Vo 2013 Paul Hummel BY NC SA Vo
(1 point) In the circuit below, i1 = -2 A, i2 = 8 A, and v1 = -2 V. Use nodal analysis to find vx and iy in the circuit below i1 8Ω 15 Ω 36 Ω 2 iy y 14 Ω 20 Ω ν1 24 Ω 10 Ω i2 40 Ω 35 Ω 12 Ω 16 Ω 0.4Vx 2013 Paul Hummel CC BY NC SAΑ
In the circuit below, i1 = -12 A, 12 = -15 A, and v1 = 11 V. Use nodal analysis to find Vx and iy in the circuit below 2 VX 60 + W W 2Ω + 50 5 VX 40 W + - il | ly v1 703 4iy 3Ω W + 2014 Paul Hummel cc o BY NG SA Vx= V ly = A
(1 point) For the circuit below, V, = (1802 – 29°) V, C = -j170 12, and R = 164 12. Find V. R Vo 2013 Paul Hummel © 000 BY NC SA V = 0.5303893 2 -87.0140213 v
(1 point) For the circuit below, V, (148 - 173°) V, C 192 2, and R 134 S2. Find Vo Vs Vo 10 k? 2013 Paul Hummel @OEO BY NC SA 0
(1 point) In the circuit below, v1 = 18 V and i1 = 1.5 A. Use mesh analysis to find V, and is 300 3160 VV 20 400 > 500 100 V = 1.30625 -2.67755 A
(1 point) In the circuit below, R1 = 70 12, R2 = 40 S2, R3 = 16 12, C = 58 mF, V1 = 12 V, and V2 = -44 V. The circuit has been running for a long time before the switch flips to the left at t = 0 Find iz(t) for t > 0 R2 t= 0 R3S 2017 Paul Hummel CCOO BY NC SA iz(t) for t> 0 =