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sool9 (10 Mark Question 4 Calculate vo in the circuit of Figure Q4 using mesh analysis...
Analyze the circuit below using any circuit analysis technique
of your choice (Nodal / Mesh / Source Transformation /
Superposition) to solve for Vo. The bottom node should be
considered as the reference node for your analysis. Write your
final answers in the boxes. Name of Technique used -
[3] (20 points) Analyze the circuit below using any circuit analysis technique of your choice (Nodal /Mesh / Source Transformation/Superposition) to solve for Vo. The bottom node should be considered as...
Using mesh analysis, find Vo in the circuit in the figure. 4000 6 mA
2. Using mesh analysis find the current lo and the voltage vo in the circuit of Fig. 2. Luna 492 Fig. 2. for Problem 2
Calculate the theoretical voltage at each node of the figure 1
circuit using the mesh analysis method (calculate mesh current
first and then use them to calculate the node voltages)
Figure 1: Circuit Schematic 1 V1 120 mH V2 10K 10K ?? (RMS) 50 Hz 12 12K
3.3) Consider the circuit shown in Figure Q3.3. With phasor approach, find Vo(t) using MESH analysis. [15M] 5Ω 102 2 sin 1000t 152 20 MF Vot) ell 10 mH Figure Q3.3
Calculate the theoretical voltage at each node of the figure 1
circuit using the mesh analysis method (calculate mesh current
first and then use them to calculate the node voltages)
NOTE: V1 should equal around 2.02V and V2 should equal around
1.1V
Figure 1: Circuit Schematic 1 V1 120 mH V2 10K 10K ?? (RMS) 50 Hz 12 12K
Question 2 Using mesh analysis to the circuit in the figure below, current through the 50 resistor in the clockwise direction can be obtained as 90 V 50 451 0-199 0-26 0.461 0-20A
Question: Use mesh analysis to calculate the following currents for the circuit fig. 3: i. 11, 12 ii. IA, IB, Ic, ID, IE, IF 3 Ω 3A 13 2 22 5 Ω 21 12 5V 10Ω 20v Fig. 3
QUESTION 5 a) Determine the value of current A in Figure Q5 by using Thevenin Theorem. Solve VH using superposition theorem. (15 marks) b) State the value of Ri should have to allow maximum power to be delivered to it. ( mark) e) Calculate the voltage, current and power at the load, R when maximum power is delivered to it. (6 marks) d) Show that the efficiency in term of input and output power of the circuit is 50 %...
Question 1 (5 marks): For the circuit shown in Figure 1 below, find the number of nodes, branches and loops, then use mesh analysis to find the currents and the power on dissipated in the 100, 10 and 120 resistors 1003 3120 ww 9A 412 Fig. 1