i need help please 5. [4/6 Points] DETAILSMY NOTESSERPSE10 27.A.P.047.PREVIOUS ANSWERSASK YOUR TEACHERIn the figure below, suppose the switch has been closed for a time interval sufficiently long for the capacitor to become fully charged. (Assume R₁ = 10.0 kn, R2 = 19.0 kQ, R3SR₁wwwC+R₂9.00 Vww(a) Find the steady-state current in each resistor.I₁31012 = 31013 = 0ΜΑΜΑΜΑR3PRACTICE ANOTHER= 8.00 kQ, and C = 11.0 μF.)(b) Find the charge Qmax on the capacitor.129580Χ με(c) The switch is now opened at t = 0. Write an equation for the current in R2 as a function of time. (Use the following as necessary: t. Do not enter units in your answers. Assume the current is inmicroamperes, and t is in seconds.)IR₂=(218)e t/(0.297s)(d) Find the time interval required for the charge on the capacitor to fall to one-fifth its initial value.478msSubmit Answer

Step 1: Part B) Potential across the capacitor will be same as the potential difference across the…

Answered: 5. [4/6 Points] DETAILS MY NOTES…

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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The equation of the charge on the capacitor at any time t for an LRC series circuits is givenas a) Assume there is no initial charge and current, sketch the graph of the charge. b) What happen to the charge after a long time? c) State the transient and the steady state terms.
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R₁ (10 m) 0.2 H ми 00000 &₁ = 50V R₂ (200) E₂ = 30V
switch In the figure, suppose the switch has been closed for a time interval sufficiently long for the capacitor to become fully charged. Find (a) The steady-state current in each resistor. (b) The charge Q on the capacitor. (c) The switch is now opened att = 0. Immediately after the switch is opened, what is the current through 1. R = 8.00 N E = 42.0 V! R2 6.00 0 %3D R3 = 3.00 N :C 4.00 µF each resistor?
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a) We assume that the switch is on. Calculate the reactance values and find the charging current in the circuit below. Is the circuit capacitive or inductive? Show that the voltage across the capacitance can be slightly larger than the source voltage U. (This is called the Ferranti effect and means that we can get a voltage rise beyond overhead lines with small loads. This is mostly relevant at the highest voltage levels. The frequency f is 50Hz, and assume voltage U= √2⋅24kV
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