The voltage across a 200 mH inductor is given by the belowmentioned expression. Calculate the energy of the inductor by means of millijoules (mJ) when t=0.14Read remarks below.v(t)= (1-6t)e-3tVt20Remarks: 1) Only give numeric results, do not use units. (ex: if you have found 50.6 m), write down 50.6)2) Use maximum one digit after dot. Don't use comma (ex: Write 50.6, not 50,6)

Given, L=200 mHv(t)=1-6te-3t t≥0

The voltage across a 200 mH inductor is given by the belowmentioned expression. Calculate the energy of the inductor by means of millijoules (m]) when t=0.14 Read remarks below. -3t v(t)= (1-6t)e V t20 Remarks: 1) Only give numeric results, đo not use units. (ex: if you have found 50.6 m), write down 50.6) 2) Use maximum one digit after dot. Don't use comma (ex: Write 50.6, not 50,6)

The voltage across a 200 mH inductor is given by the belowmentioned expression. Calculate the energy of the inductor by means of millijoules (m]) when t=0.14 Read remarks below. -3t v(t)= (1-6t)e V t20 Remarks: 1) Only give numeric results, đo not use units. (ex: if you have found 50.6 m), write down 50.6) 2) Use maximum one digit after dot. Don't use comma (ex: Write 50.6, not 50,6)

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter16: Inductance In Ac Circuits

Section: Chapter Questions

Problem 2PP: What frequency must be applied to a 33-mH inductor to produce an inductive reactance of 99.526 ?

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