Please find Vo using nodal analysis
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7. Find Vo in the network shown in Figure below using nodal analysis (20 points) 12 V ww 1 k2 1 kO 2 k2 Ans: Use superposition and you should get: VO= 9 V
Question 1: (4 pts) Find Vo in the following circuit using Nodal Analysis Technique: 1 kn 12V(+ Answer:
Please use nodal analysis only
and show all work
Find Vo in the circuit in the figure using nodal analysis. 8 mA Vo-
(2) Find Va and Vb using nodal analysis. This is an example of a problem where it is important to follow the directions "using nodal analysis" to get full credit. Va Vb - ZAQ & 2 A ( 35 G 5A 84 5 A 34 (3) Find Va and Vb and Vc using nodal analysis. vo un vauva 24 v G+ 2 2400 ( + ) 30 V 30 (4) Find Va and Vb using nodal analysis. Note the 16i...
4. Find I using Norton's theorem 1 kn 1 kΩ V + 2V 2 k2 12 V Answer: = 4mA 5. Use Thèvenin's theorem to find Va. 1000 6 kn 1 kn + 2 kΩS 2 kΩ 3 V 1 mA V Answer: V = V 6, Use Norton's theorem to find V Š1 k2 4000 2 kn 3 kn V3 kn 1 mA Answer: V= =1.4516V
4. Find I using Norton's theorem 1 kn 1 kΩ V + 2V...
V1= 2V
V2 = 1.5V
find Vo
60 k2 20 kn ww. 30 kn 50 kn 10 k2 w- 12
2 questions
Question 2 5 pts Use loop analysis to find Vo in the network. Vo 2 k2 12 V 1 k2 2 mA 1 V 3 V
For the circuit shown above, solve for Vo and io.
PLEASE USE NODAL or SUPERNODAL ANALYSIS. PLEASE DO NOT USE
MESH.
24 12 32 12 + 16 - 2 642 + 4i, 40 V + 5512 0.246 1.1A For the circuit shown above, solve for vo and io.
Determine Vo in the circuit below using nodal analysis. Hint: Do not use the bottom node of the circuit as the reference node. 4 mA 6 V 12 V Answer: Vo 6 V
Chapter 3, Problem 3.022 Find Io in the circuit in the figure using nodal analysis. 1 k 2 2 k2 W- (+2V 31 6V 1.= mA the tolerance is +/-2%