Referring to the Figure 3 below, ω = 4 rad/s The value of A is 59. Norton’s theorem is one of the techniques to reduce complexity of circuit. By referring to the Figure 3, apply this theorem to determine all the requirements below. i) Calculate the value of Norton’s impedance, ZN ii) Calculate the value of Norton’s current, IN iii) Draw a Norton’s equivalent circuit.

Referring to the Figure 3 below, ω = 4 rad/s The value of A is 59. Norton’s theorem is one of the techniques to reduce complexity of circuit. By referring to the Figure 3, apply this theorem to determine all the requirements below. i) Calculate the value of Norton’s impedance, ZN ii) Calculate the value of Norton’s current, IN iii) Draw a Norton’s equivalent circuit.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter17: Resistive-inductive Series Circuits

Section: Chapter Questions

Problem 8PP: In an R-L series circuit, the apparent power is 560 VA, PF = 62%. Find reactive power.

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