Calculate the voltage drop developed across a d'Arsonval meter move-ment having an internal resistance of 850 N and a full-scale deflectioncurrent of 100 µA.2-1Find the resistance of a multiplier required to convert a 200-µA metermovement into a 0- to 150-V dc voltmeter, if Rm=1 kN.2-22-3Calculate the half-scale current of a meter movement that has asensitivity of 20 kN/V.Find the value of shunt resistance required to convert a 1-mA metermovement with an internal resistance of 105 N into a 0- to 150-mA2-4meter current.Which meter has a greater sensitivity: meter A having a range of 0 to10 V and a multiplier resistor of 18 kN, or meter B with a range of 0 to300 V and a 298-kN multiplier resistor? Both meter movements havean internal resistance of 2 kn.2-52-6Find the currents through meters A and B in the circuit of Fig. 2-31.R = 10 k2R, = 2 kn- 100 μΑEE = 1 VRange 0-1 VS = 10 kN/N-100 μΑR2 kn%3D

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Calculate the voltage drop developed across a d'Arsonval meter move- ment having an internal resistance of 850 N and a full-scale deflection current of 100 µA. 2-1 Find the resistance of a multiplier required to convert a 200-µA meter movement into a 0- to 150-V dc voltmeter, if Rm=1 kN. 2-2 2-3 Calculate the half-scale current of a meter movement that has a sensitivity of 20 kN/V.

Calculate the voltage drop developed across a d'Arsonval meter move- ment having an internal resistance of 850 N and a full-scale deflection current of 100 µA. 2-1 Find the resistance of a multiplier required to convert a 200-µA meter movement into a 0- to 150-V dc voltmeter, if Rm=1 kN. 2-2 2-3 Calculate the half-scale current of a meter movement that has a sensitivity of 20 kN/V.

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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