The charge entering the positive terminal of an element is given by the expression q(t) = -10 e^(-3t) mc. The power delivered to the element is p(t) = 3.5e^(-3t) W. If the solution for i(t) is in the form i(t)=I*e^(at), what is the value of I for the time interval of 0 < t < 100ms? The current will also be an exponential, but this problem is only asking for the magnitude (I). Notes on entering solution: • Enter your solution in ma • Enter your solution to the nearest tenth of a mA • Do not include units in your answer .ex. 5mA is entered as 5.0
The charge entering the positive terminal of an element is given by the expression q(t) = -10 e^(-3t) mc. The power delivered to the element is p(t) = 3.5e^(-3t) W. If the solution for i(t) is in the form i(t)=I*e^(at), what is the value of I for the time interval of 0 < t < 100ms? The current will also be an exponential, but this problem is only asking for the magnitude (I). Notes on entering solution: • Enter your solution in ma • Enter your solution to the nearest tenth of a mA • Do not include units in your answer .ex. 5mA is entered as 5.0
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:The charge entering the positive terminal of an element is given by the
expression q(t) = -10 e^(-3t) mc. The power delivered to the element is p(t) =
3.5e^(-3t) W. If the solution for i(t) is in the form i(t)=I*e^(at), what is the value
of I for the time interval of 0 < t < 100ms?
The current will also be an exponential, but this problem is only asking for the magnitude (I).
Notes on entering solution:
• Enter your solution in mA
Enter your solution to the nearest tenth of a mA
• Do not include units in your answer
• ex. 5mA is entered as 5.0
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