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A voltage divider like that in the figure is to be designed so that vo= kv, at no load (R₁ = ∞) and vo av, at full load (RL = Ro). Note that by definition a

A voltage divider like that in the figure is to be designed so that vo= kv, at no load (R₁ = ∞) and vo av, at full load (RL = Ro). Note that by definition a

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
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7.2----ALL INFORMATION IS PROVIDED TO FIND PR1 and PR2----

R_L = Load Resistor

V_s = 40V

R_1 = [(k-alpha)R_o] / (alpha*k) 

R_1 = 2.76 kOhms

R_2 = [(k-alpha)R_o] / [alpha(1*k)]

R_2 = 8.29 kOhms

A voltage divider like that in the figure is to be designed so that vo= kv, at no load (R₁ = ∞) and vo av, at full load (RL = Ro). Note that by definition a <k < 1. ( Figure 1) Figure R₁ R₂ + Vo 1 of 1 RL Submit Request Answer Part E Assume the load resistor is accidentally short circuited. How much power is dissipated in R₁ and R₂? Enter your answers numerically separated by a comma. ΤΙ ΑΣΦΑΛΗ PR₁. PR₂ = Submit Request Answer vec 6 ? mW
Transcribed Image Text:A voltage divider like that in the figure is to be designed so that vo= kv, at no load (R₁ = ∞) and vo av, at full load (RL = Ro). Note that by definition a <k < 1. ( Figure 1) Figure R₁ R₂ + Vo 1 of 1 RL Submit Request Answer Part E Assume the load resistor is accidentally short circuited. How much power is dissipated in R₁ and R₂? Enter your answers numerically separated by a comma. ΤΙ ΑΣΦΑΛΗ PR₁. PR₂ = Submit Request Answer vec 6 ? mW
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