(10 points) [8] Find V, in the circuit shown below. 1 Ω 1 Ω 1Ω =1...
6: For the circuit below, find the voltages vi and v2. 15 Ω 1Ω 1042
Find equivalent impedance . Thank you! -j1 Ω 1Ω If 2Ω j2 Ω z j2 Ω Γ 2Ω 2Ω
Write a set of mesh equations for the circuit below and find i and V 1Ω 6 그C2 i6v
Find I in the circuit below. 22 j2 0 j1 Ω 2 12/0°V | j4 26/0° V
Consider the circuit shown below. 5Ω 4A R 8 ξ10 Ω 4 Ω ν 240V 10 ΩΣ ξ14 Ω 6 Ω a- (10 pts) Find R. b- (10 pts) Find the total power delivered to the circuit by the 240 volt source.
QUESTION 6 In the circuit shown in the figure below R1 . 3.8 Ω R2·6 Ω R3 2.8 Ω 11 . 3.1 A 12 5.4 Aand -1 9 A Calculate the po er produced or consumed y the emf2 (Give your answer in algebraic decimal: (+) if the emf produces electrical power and () of the emf consumes electrical power. Use "W" as unit) e1 e2 Ry QUESTION 7 In the circuit shown in the figure below ε1-8 V and...
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
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
Problem 4 Find the Thevenin equivalent with respect to the terminals ab for the circuit shown below. Use the mesh-current method in vour analvsis 0.7 V 43 30 Ω 1Ω 1.262 12 V 70 Ω 2) ·b
Find the Thevenin and Norton equivalent circuit at terminals a-b for the circuit shown below, where R = 13 12. Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. j42 R mo юа -j2 Ω 2/0° A -ob Zn = = Zth IN = 1) D A 1) v Vth =