1. There is another method to find the time constant RC. For a discharging capacitor its voltage can be expressed as V (t) = Ve When time t = RC, V = Voe¹ = V.(0.368). If we have a discharging curve, we follow the curve to the point where the voltage is equal to 0.368V. The time corresponding to 0.386V, is the time constant, t = RC. V RC V₂ 0.368 V T Use your voltage data for R₁ = 10 k2 and determine the time constant. Show your work.

1. There is another method to find the time constant RC. For a discharging capacitor its voltage can be expressed as V (t) = Ve When time t = RC, V = Voe¹ = V.(0.368). If we have a discharging curve, we follow the curve to the point where the voltage is equal to 0.368V. The time corresponding to 0.386V, is the time constant, t = RC. V RC V₂ 0.368 V T Use your voltage data for R₁ = 10 k2 and determine the time constant. Show your work.

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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Capacitor

The capacitor is an element used to store electrical energy in the electrical field. A capacitor is a form of passive energy.

Question

1. There is another method to find the time constant RC. For a discharging capacitor its voltage can
RC
be expressed as V(t) = V₂e . When time t = RC, V = Voe¹ = V.(0.368). If we have a
discharging curve, we follow the curve to the point where the voltage is equal to 0.368V. The time
corresponding to 0.386V, is the time constant, t = RC.
V
V₂
0.368 V
T
Use your voltage data for R₁ = 10 k2 and determine the time constant. Show your work.

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