Choose the correct answer for the following a- Thevenin's theorem used to 1- Show the operation of the circuit as a source. 2- Simplify complicated circuits. 3- Determine the current in certain branch. b- Norton's Theorem used to 1- Show the operation of the circuit as a source. 2- Simplify complicated circuits. 3- Determine the current in certain branch. c- The iron core of transformers used to: 1- Transfer magnetic flux from primary to secondary winding. 2- Reduce hysteresis and eddy current losses. 3- Initiate magnetic flux. d- The speed of an electron in a current carrying conductor is: 1- The speed of light. 2- In many km per second. 3- In many mm per second. e- The speed of electrical energy inside a current carrying conductor 1- The speed of light. 2- In many km per second. 3- In many mm per second. f- The Imaginary power in AC circuit: 1- Causes no real losses. 2- Causes real losses. 3- Causes imaginary losses. g- The real power in AC circuit transfer: 1- From source to load.

Choose the correct answer for the following a- Thevenin's theorem used to 1- Show the operation of the circuit as a source. 2- Simplify complicated circuits. 3- Determine the current in certain branch. b- Norton's Theorem used to 1- Show the operation of the circuit as a source. 2- Simplify complicated circuits. 3- Determine the current in certain branch. c- The iron core of transformers used to: 1- Transfer magnetic flux from primary to secondary winding. 2- Reduce hysteresis and eddy current losses. 3- Initiate magnetic flux. d- The speed of an electron in a current carrying conductor is: 1- The speed of light. 2- In many km per second. 3- In many mm per second. e- The speed of electrical energy inside a current carrying conductor 1- The speed of light. 2- In many km per second. 3- In many mm per second. f- The Imaginary power in AC circuit: 1- Causes no real losses. 2- Causes real losses. 3- Causes imaginary losses. g- The real power in AC circuit transfer: 1- From source to load.

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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Single Phase Transformer

A single-phase transformer is a type of power transformer. It is an electrical device that accepts converts the single phase alternating power into single phase alternating power. In this power conversion the voltage is stepped up or down. If the voltage is stepped up, the current will be stepped down and if the voltage is stepped down, the current will be stepped up.

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