1. The following data are given in connection with the parallel - series circuit of Figure 1; R₁ = 6 02, R₂ = 14 Q2, E₂ = 86.8 volts, R3 = 16 02, R4 = 20 02, R6 = 25 02, total power PT = 1,922 watts. Calculate (a) the impressed voltage E, (b) the total current IT, (c) the resistance Rs, (d) the equivalent resistance, (e) the voltage drop across R₁, R4, R5, and R6. R1 R2 Figure 1 R3 R4 R5 R6
1. The following data are given in connection with the parallel - series circuit of Figure 1; R₁ = 6 02, R₂ = 14 Q2, E₂ = 86.8 volts, R3 = 16 02, R4 = 20 02, R6 = 25 02, total power PT = 1,922 watts. Calculate (a) the impressed voltage E, (b) the total current IT, (c) the resistance Rs, (d) the equivalent resistance, (e) the voltage drop across R₁, R4, R5, and R6. R1 R2 Figure 1 R3 R4 R5 R6
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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KVL and KCL
KVL stands for Kirchhoff voltage law. KVL states that the total voltage drops around the loop in any closed electric circuit is equal to the sum of total voltage drop in the same closed loop.
Sign Convention
Science and technology incorporate some ideas and techniques of their own to understand a system skilfully and easily. These techniques are called conventions. For example: Sign conventions of mirrors are used to understand the phenomenon of reflection and refraction in an easier way.
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Transcribed Image Text:1. The following data are given in connection with the parallel - series circuit of Figure 1; R₁ = 60, R₂ =
14 02, E₂ = 86.8 volts, R3 = 16 02, R₁ = 20 ≤2, R₁ = 25 №, total power P₁ = 1,922 watts. Calculate (a) the
impressed voltage E, (b) the total current IT, (c) the resistance R5, (d) the equivalent resistance, (e) the
voltage drop across R₁, R4, R5, and R6.
R1
R2
Figure 1
R3
R4
R5
R6
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