Replace the circuit 'seen' by the 4 k to find the voltage V across the 4 k equivalent instead. resistor by its Thévenin equivalent, and use the equivalent circuit resistor. Repeat the above but replace the circuit 'seen' by its Norton 10 V 1 ΚΩ 2 ΚΩ 0.5 Vo mA 14 Solution: VTH = 28 V, RTH = 6 kN, IN 3 2 mA ☐ k11 [4 ΚΩ V RN Vo mA 4.667 mA, R₁ = 6 ks, V₁ = 11.2 V.
Replace the circuit 'seen' by the 4 k to find the voltage V across the 4 k equivalent instead. resistor by its Thévenin equivalent, and use the equivalent circuit resistor. Repeat the above but replace the circuit 'seen' by its Norton 10 V 1 ΚΩ 2 ΚΩ 0.5 Vo mA 14 Solution: VTH = 28 V, RTH = 6 kN, IN 3 2 mA ☐ k11 [4 ΚΩ V RN Vo mA 4.667 mA, R₁ = 6 ks, V₁ = 11.2 V.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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answer all parts using thevenins and nortons theorm. For thevenins theorm, could you try apply 1V test voltage accross Vo. Thank you
Transcribed Image Text:Replace the circuit 'seen' by the 4 k
to find the voltage V across the 4 k
equivalent instead.
resistor by its Thévenin equivalent, and use the equivalent circuit
resistor. Repeat the above but replace the circuit 'seen' by its Norton
10 V
1 ΚΩ
2 ΚΩ
0.5 Vo mA
14
Solution: VTH = 28 V, RTH = 6 kN, IN
3
2 mA
☐ k11
[4 ΚΩ V
RN
Vo
mA 4.667 mA, R₁ = 6 ks, V₁ = 11.2 V.
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