R=2 MQa) Circuit in Figure 1 is charging the capacitor untilit is fully charged in a duration of t. Modify thecircuit such that the capacitor is now fullycharged in a duration of 2.5t (4 times faster)b) Using Excel, plot the function of ve(t) of both theoriginal and modified circuit on the same graph(overlapping)1V=10 VVcC=1000 pFFigure 12kn4ka2 a) When t=0, the switch in Figure 2 is closed andthe circuit is charging the inductor. Determinethe time constant (r) of the charging circuit;determine the i (t) of the inductorb) Using the app of Falstad, validate the answerfrom part (a) and do a screenshot/screencapture of the i (t) graph20V12ka2HFigure 2

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t=0 R=2 MQ 1 a) Circuit in Figure 1 is charging the capacitor until it is fully charged in a duration of t. Modify the circuit such that the capacitor is now fully charged in a duration of 2.5t (4 times faster) b) Using Excel, plot the function of ve(t) of both the original and modified circuit on the same graph (overlapping) V-10 V Vc C=1000 pF Figure 1

t=0 R=2 MQ 1 a) Circuit in Figure 1 is charging the capacitor until it is fully charged in a duration of t. Modify the circuit such that the capacitor is now fully charged in a duration of 2.5t (4 times faster) b) Using Excel, plot the function of ve(t) of both the original and modified circuit on the same graph (overlapping) V-10 V Vc C=1000 pF Figure 1

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter17: Resistive-inductive Series Circuits

Section: Chapter Questions

Problem 2PA: You are a journeyman electrician working in an industrial plant. Your task is to connect an inductor...

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