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7) In the following circuit, find the current lo using superposition. (5 points) 6/0°Α -j2 Ω 6Ω j4 Ω +) 30/30° V 8Ω
Find equivalent impedance .
Thank you!
-j1 Ω 1Ω If 2Ω j2 Ω z j2 Ω Γ 2Ω 2Ω
Find Io using source transformation in the
following circuit: (5 points)
2 Ω j1 Ω οδο I, 4Ω 8/90° A j5 Ω ell 1 Ω W -j3 Ω -j2 Ω
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...
(10 points) [8] Find V, in the circuit shown below. 1 Ω 1 Ω 1Ω =1 Ω. 12/6 v(+ j2 03 ξj10 2ΩΣ V,
Given the following parameters: Z=3+j1 12 jwL;=j2 12 Determine: jwL;=j242 jwM=j1 2 Z=1-j1 12 a) The two mesh equations (primary loop and secondary loop) b) The impedance seen by the source (V.). JOM Lip Gjola
The Hungarian algorithm: An example
We consider an example where four jobs (J1, J2, J3, and J4) need
to be executed by four workers (W1, W2, W3, and W4), one job per
worker. The matrix below shows the cost of assigning a certain
worker to a certain job. The objective is to minimize the total
cost of the assignment.
J1
J2
J3
J4
W1
82
83
69
92
W2
77
37
49
92
W3
11
69
5
86
W4
8...
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
Problem 4.6. Find the average power absorbed by the 2 ohm resistor. j2 <--Ix +12/0 V 2 1x -j3 Problem 4.7. power Determine the impedance Z for maximum power transfer and the maximunm -j3 j2 -) 610 V
(1 point) For the circuit below, V,--(162434°) ?, C--j1 52 ?, and R-100 ?. Find V, Vo 2013 Paul Hummel BY NC SA Vo