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Determine the Thevenin and Norton parameters for the points A and B in this circuit. 450...
Assume ? = 100, Find Thevenin equivalent circuit and based on Thevenin circuit find all branch currents and voltages. +15 V RBI = 100 kΩ. S Rς = Σ5 ΚΩ RB2 = 50 ΚΩ > RE = Σ 3 ΚΩ
06) Find the Thevenin equivalent circuit at terminal a-b Let V1-50<300V , XL>J20 Ω, Xc-*)10 Ω, and R1-10 Ω for the following circuit. R1 ZTH- V1 (
Find the Norton equivalent circuit as seen from terminals a and b for the circuit shown in Figure 1. Norton resistance (Ra-b) Blank 1, kiloohms Norton current (Ia-b) Blank 2, mA a 3kQ 10k 2 + 70V 250 0.01V. Y >5kQ Figure 3
In the circuit shown below, let C = 1F and v(0−) = 1V. Determine v(t) for t > 0 and sketch it In the circuit shown below, let C-IF and u(0-) = 1 V. Determine v(t) for t > 0 and sketch it. v(t)
3. Let X and Y have a bivariate normal distribution with parameters x -3 , μΥ 10, σ 25, 9, and ρ 3/5. Compute (c) P(7<Y < 16). (d) P(7 < Y < 161X = 2).
4. Determine the Thevenin and Norton equivalents (Rth, RN, Vrh, and In) for the circuit shown below at terminals a-b. 4 A 49 82 w 2 31022 w 48 V
. c) + < 2 b) 2 + 3x 27, 0. Solve for r: r' + 2.r < 2.1? +12
1) In the balanced Y-Y circuit shown below, let Van=990<0° V (rms) and the load impedance per phase be Zy=60+j35 2. Find the complex power, apparent power, average power, and reactive power of the load (25 marks) 110 os os
5. Determine v(t) for t < 0 and t > 0 in the circuit shown 0.5 H 0 3? 8? 4i0 24 V (+ 20v
21.A uniform distribution has parameters a = 0.1 and B = 0.9. P(0.23 < X < 0.67) =