For the circuit in Fig. 3.69, find vi, V2, and v3 using nodal analysis. 240 V...
3) Using Nodal analysis technique find Vx in the circuit shown below 10 V 20 2 5Ω Vi V2 V3 9 A 10Ω 4) Using superposition theorem find lx for the circuit shown below: 10Ω 30 V+ 10 2 5 S2 -6 A
Use Nodal Analysis Exercise 3.7 Find V1, V2, and V3 in the circuit shown in Figure 3.20. FIGURE 3.20 The circuit for EXERCISE 3.7. 3 k12 R2 3 k2 Is 4 mA R3 15k12 Z RA 9k12 3 R5 6 k12 Answer: Vi = 15 V, V2 = 9V, V3 = 12 V.
Please use nodal analysis to find V1, V2, and V3 Given the circuit which will be used for this and the next two problems, use Nodal Analysis to determine the Node Voltages, V1, V2, and V3. In this problem give the value for V1: 2KR 4ksh Vi 4kr 2KL va 3mA. 15mA. Gr.
Given the following circuit, calculate Vi, V2, V3, Ir, I, h, , 14 using nodal analysis. l54 www 100k 1k 10k 1k V2 V1 IT 10k 100k 1k 5V 12
2.12 In the circuit in Fig. 2.76, obtain vi, v2, and v3. +30 V- lp ent Cly -50 V +20 V- + 12 ify V1 u3 40 V
Problem 03.020 Nodal analysis: Independent voltage source and current dependent voltage source In the circuit given below, R-25 ?. Find v1, v2, and v3 using nodal analysis. 240 V 20i 20 ? 3 li 40? ": 10? The value of vy in the circuit is The value of v2 in the circuit is| |V The value of vy in the circuit isv V.
Obtain the voltages V1, V2 and v3 for the circuit shown in Figure 2 using nodal analysis.
Q1) Using nodal analysis, obtain the voltages vi and v2 in the circuit below. 202 6A 1002 3502 422 3A
4. Use NODAL ANALYSIS to find the voltages vi and v2 in the circuit shown below. 4Ω 1, 2Α 4Ω: MW 1 Ω 2i, 2Ω 10 ν
(v) v3 v2-VI (ii) In the circuit below, find the currents Ii and I2. Then find node b voltage 3k1, 4 k 6V4k 3 k 1 k I