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For circuit with series and parallel resistors, the supply voltage, Vsupply=120 Volts and the resistors are given as follows; R₁= 102, R₂=250, R3=350, R4-5002 and R5= 7092. What the total power dissipated across all the circuit? OTV₂ w R₂

For circuit with series and parallel resistors, the supply voltage, Vsupply=120 Volts and the resistors are given as follows; R₁= 102, R₂=250, R3=350, R4-5002 and R5= 7092. What the total power dissipated across all the circuit? OTV₂ w R₂

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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For a circuit with series and parallel resistors, the supply voltage \( V_{\text{Supply}} = 120 \) Volts and the resistors are given as follows: \( R_1 = 10 \, \Omega \), \( R_2 = 25 \, \Omega \), \( R_3 = 35 \, \Omega \), \( R_4 = 50 \, \Omega \), and \( R_5 = 70 \, \Omega \). What is the total power dissipated across the entire circuit? ### Circuit Diagram The diagram shows a circuit with resistors arranged in a combination of series and parallel. The layout is as follows: - \( R_1 \) is in series with a parallel combination of \( R_2 \) and \( R_4 \). - \( R_3 \) is in series with a parallel combination of \( R_4 \) and \( R_5 \). ### Power Dissipation Options - \( \) 432 Watt - \( \) 288 Watt - \( \) 144 Watt - \( \) 576 Watt
Transcribed Image Text:For a circuit with series and parallel resistors, the supply voltage \( V_{\text{Supply}} = 120 \) Volts and the resistors are given as follows: \( R_1 = 10 \, \Omega \), \( R_2 = 25 \, \Omega \), \( R_3 = 35 \, \Omega \), \( R_4 = 50 \, \Omega \), and \( R_5 = 70 \, \Omega \). What is the total power dissipated across the entire circuit? ### Circuit Diagram The diagram shows a circuit with resistors arranged in a combination of series and parallel. The layout is as follows: - \( R_1 \) is in series with a parallel combination of \( R_2 \) and \( R_4 \). - \( R_3 \) is in series with a parallel combination of \( R_4 \) and \( R_5 \). ### Power Dissipation Options - \( \) 432 Watt - \( \) 288 Watt - \( \) 144 Watt - \( \) 576 Watt
Expert Solution
Step 1

Given data,

Resistances,

R1=10 ΩR2=25 ΩR3=35 ΩR4=50 ΩR5=70 Ω

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