This is not graded ือออออElectronic Devices & Circuits EC43101FPCapacitors / InductorsTutorial 4504M26R8F103M(9472J(p224KConvert the following value of the capacitor to IEC code:100PF + 5%(q5.6µF ± 10%0.1µF ± 20%(p22 pF + 1%(a0.003µF + 2%3.What is a dielectric ?(e(gName 4 dielectric materials commonly used in a capacitor.State the applications of:paper capacitor(gceramic capacitorelectrolytic capacitorA 60 µF capacitor is connected across a 200V supply. What is the charge stores in thecapacitor? What charge does it take if the voltage is increased to 400V?5.(12000 µC, 24000 µC)6.If the charge of a 40 µF capacitor is 380µC, find the voltage applied.(9.5V)7.If the charge of a 30 µF capacitor is 0.48 mC, find the voltage applied.Calculate the capacitance required to give a 680 µC charge if the supply voltage is 35V.(19.429µF)8.State the applications of the following inductors:Ferrite core inductors9.laminated iron core inductors-(g(eair core inductors -10.State the frequency range of ferrite core inductors.11.Draw the symbol of an air-cored inductor.12.What is choice of inductor dependent on?4-11Higher Nitec in Electronics Engineering

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10 (e paper capacitor (ba electrolytic capacitor ceramic capacitor A 60 µF capacitor is connected across a 200V supply. What is the charge stores in the capacitor? What charge does it take if the voltage is increased to 400V? 5. (12000 µC, 24000 µC) If the charge of a 40 µF capacitor is 380µC, find the voltage applied. (9.5V) 7. If the charge of a 30 µF capacitor is 0.48 mC, find the voltage applied. Calculate the capacitance required to give a 680 µC charge if the supply voltage is 35V,

10 (e paper capacitor (ba electrolytic capacitor ceramic capacitor A 60 µF capacitor is connected across a 200V supply. What is the charge stores in the capacitor? What charge does it take if the voltage is increased to 400V? 5. (12000 µC, 24000 µC) If the charge of a 40 µF capacitor is 380µC, find the voltage applied. (9.5V) 7. If the charge of a 30 µF capacitor is 0.48 mC, find the voltage applied. Calculate the capacitance required to give a 680 µC charge if the supply voltage is 35V,

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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