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For the circuit shown, find Vab, It, I, & Iz using mode voltages. I 12 le...
Find VAB in the circuit below. The two AC supply voltages have a frequency of 1kHz and are in phase. All resistances values are in ohms. QUESTION TWO (20 MARKS) Find VAB in the circuit below. The two AC supply voltages have a frequency of 1KHZ and are in phase. All resistances values are in ohms. A 4 3mH 12 6 12V 32 V
Find VAB in the circuit below. The two AC supply voltages have a frequency of 1kHz and are in phase. All resistances values are in ohms. QUESTION TWO (20 MARKS) Find VAB in the circuit below. The two AC supply voltages have a frequency of 1KHZ and are in phase. All resistances values are in ohms. A 4 3mH 12 6 12V 32 V QUESTION TWO (20 MARKS) Find VAB in the circuit below. The two AC supply voltages have...
For the circuit shown in figure 7, find the node voltages Vi. V2 and Va nalysis 12 (4 V 2Ω 4 A Fig.7 h. For the circuit shown in figure 7, find the mesh currents I, la, and Is For the circuit shown in figure 7, find the node voltages Vi. V2 and Va nalysis 12 (4 V 2Ω 4 A Fig.7 h. For the circuit shown in figure 7, find the mesh currents I, la, and Is
Using source transformations, find the current I and the voltage Vab of the circuit in Figure 9 (Ans: -0.2A, 8V) R60 ab 40 2 E224 V E348 V Figure 9
4. Find currents 11 and 12 and voltages Vi and V2 for the circuit shown below. R 11 R 12 W | 21 50 V 000 000 L L 11 L2 R 42 1. R3372 av C+1 R350
4. Find currents 11 and 12 and voltages Vi and V2 for the circuit shown below. R 11 R 12 W | 21 50 V 000 000 L L 11 L2 R 42 1. R3372 av C+1 R350
In the circuit given below, R-90 . Find the value of Vab and io using mesh analysis. 20 2 lo 30 2 80 V+ 20 2 0Vab 80 V + 30 2 The value of io in the circuit is 0.966 A. The value of Vab in the circuit is 28.98 V.
For the circuit shown in fig 2, Apply Laplace transform to find i) i1(t) and iz(t) ii) Apply the initial and final value theorem iii) Explain your answer in part ii 10 12 100 V 30.02 H 350
please ignore Qucs questions . Consider the circuit shown in Fig. 1: 1. Given the values of the resistors are R;=1.2k12 , Rz=3.3kN and R3=5.6k22, calculate values of the voltages V1, V2 and V3, and the currents I1, I2 and 13 using any other method except Superposition theorem. 2- Verify the results using QUCS. + V 1 + V3 Iz RI R E-15 V E-10 V Fig. 1 3- Consider the circuit shown in Fig. 2: + V I' I'3...
Find the phasors for the current and for the voltages of the circuit shown below. Construct a phasor diagram showing VS, I, VR, and V.. What is the phase relationship between Vs and I? (7 pts) 10022 AN v (t) = 10 cos(5000)