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Two voltages can be represented by the following phasors:   V1=(12+6j)         V2=(4+5j) Work out the resultant phasors of the two voltage supply combined, i.e. VR=V1+V2 Convert the V1 and V2 phasors to polar forms, together with V1+V2. Using the phasors diagram,  Determine the resultant VR graphically

Two voltages can be represented by the following phasors:   V1=(12+6j)         V2=(4+5j) Work out the resultant phasors of the two voltage supply combined, i.e. VR=V1+V2 Convert the V1 and V2 phasors to polar forms, together with V1+V2. Using the phasors diagram,  Determine the resultant VR graphically

Introductory Circuit Analysis (13th Edition)
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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Two voltages can be represented by the following phasors:

 

V1=(12+6j)

        V2=(4+5j)

  1. Work out the resultant phasors of the two voltage supply combined, i.e. VR=V1+V2
  2. Convert the V1 and V2 phasors to polar forms, together with V1+V2.
  3. Using the phasors diagram, 

Determine the resultant VR graphically

Part 2: Engineering in vector form Two voltages can be represented by the following phasors: i. V₁ = (12 + 6j) 1 V₁ = (4 + 5j) 2 Work out the resultant phasors of the two voltage supply combined, i.e. V₁ = V₁ + V₂ R 2 iii. Using the phasors diagram, ii. Convert the V, and V, phasors to polar forms, together with V₁ + V. 1 2 1 2° Determine the resultant V graphically
Transcribed Image Text:Part 2: Engineering in vector form Two voltages can be represented by the following phasors: i. V₁ = (12 + 6j) 1 V₁ = (4 + 5j) 2 Work out the resultant phasors of the two voltage supply combined, i.e. V₁ = V₁ + V₂ R 2 iii. Using the phasors diagram, ii. Convert the V, and V, phasors to polar forms, together with V₁ + V. 1 2 1 2° Determine the resultant V graphically
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