Using V = 14 mV, and given the voltage across an inductor L = 2 mH as shown in Fig. P6.25, determine the equation of current as a function of time across the inductor during the time 0ms <= t <= 1 ms. Assuming the solution looks like iL(t) = Xt² + C, what is the value of X? For your answer, just put the value of X in Amperes/s² (there should only be a number in your answer). v(t) (mV) 4 V t (ms)
Using V = 14 mV, and given the voltage across an inductor L = 2 mH as shown in Fig. P6.25, determine the equation of current as a function of time across the inductor during the time 0ms <= t <= 1 ms. Assuming the solution looks like iL(t) = Xt² + C, what is the value of X? For your answer, just put the value of X in Amperes/s² (there should only be a number in your answer). v(t) (mV) 4 V t (ms)
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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Transcribed Image Text:Using V = 14 mV, and given the voltage across an inductor L = 2 mH as shown in Fig.
P6.25, determine the equation of current as a function of time across the inductor
during the time Oms <= t <= 1 ms. Assuming the solution looks like i₁(t) = Xt² + C,
what is the value of X? For your answer, just put the value of X in Amperes/s² (there
should only be a number in your answer).
v(t) (mV) 4
V-
t (ms)
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