Solution Please Use the figure below. A coil with four (4) turns is wound around a closed core with cross-sectionalarea of 30cm², relative permeability of 1200, and a mean path length of 50 cm. A magnetic sensormodule of negligible thickness is installed within the core; this module has a transfer equationV1=50+0.2, where is the flux in Wb and V1 is in volts. Neglect fringing and saturation effects.CorefluxФsensor+V₁Ax + B+V₂1. Find the sensor output voltage V1 when 60 A DC is passing through the input coil. Expressyour answer in mV up to 3 decimal places.2. Find the constant A and B such that a 1 A DC input will yield V2=10mV while a 400 A DCinput will yield V2=10V. Give your answer up to 3 decimal places.3.A 500-A 50-Hz sinusoidal current is passing through the input coil. Find the reactive powerconsumed, in kVAR up to 3 decimal places.

Answered: Image /qna-images/answer/f212f174-2283-4d88-b23a-2b4cb8164bc6.jpg

Use the figure below. A coil with four (4) turns is wound around a closed core with cross-sectional area of 30cm², relative permeability of 1200, and a mean path length of 50 cm. A magnetic sensor module of negligible thickness is installed within the core; this module has a transfer equation V1=50+0.2, where is the flux in Wb and V1 is in volts. Neglect fringing and saturation effects. - Core flux $ sensor + V₁ - + Ax + B V₂ 1. Find the sensor output voltage V1 when 60 A DC is passing through the input coil. Express your answer in mV up to 3 decimal places. 2. Find the constant A and B such that a 1 A DC input will yield V2=10mV while a 400 A DC input will yield V2=10V. Give your answer up to 3 decimal places. 3. A 500-A 50-Hz sinusoidal current is passing through the input coil. Find the reactive power consumed, in kVAR up to 3 decimal places.

Use the figure below. A coil with four (4) turns is wound around a closed core with cross-sectional area of 30cm², relative permeability of 1200, and a mean path length of 50 cm. A magnetic sensor module of negligible thickness is installed within the core; this module has a transfer equation V1=50+0.2, where is the flux in Wb and V1 is in volts. Neglect fringing and saturation effects. - Core flux $ sensor + V₁ - + Ax + B V₂ 1. Find the sensor output voltage V1 when 60 A DC is passing through the input coil. Express your answer in mV up to 3 decimal places. 2. Find the constant A and B such that a 1 A DC input will yield V2=10mV while a 400 A DC input will yield V2=10V. Give your answer up to 3 decimal places. 3. A 500-A 50-Hz sinusoidal current is passing through the input coil. Find the reactive power consumed, in kVAR up to 3 decimal places.

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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