| Line 26: | Line 26: | ||
===Answer === | ===Answer === | ||
For a response to be critically damped we know that:<br /> | For a response to be critically damped we know that:<br /> | ||
| − | <math>b^2 - 4c = 0 | + | <math>b^2 - 4c = 0</math><br /> |
| − | The next step would be to simplify the circuit as shown in the image below. Once simplified it becomes a parallel RLC circuit where we know: | + | The next step would be to simplify the circuit as shown in the image below. Once simplified it becomes a parallel RLC circuit where we know:<br /> |
<math> b = \frac{1}{RC} and c = \frac{1}{LC}\\</math> | <math> b = \frac{1}{RC} and c = \frac{1}{LC}\\</math> | ||
[[File:ECE201P6_1.png|500px|center]] | [[File:ECE201P6_1.png|500px|center]] | ||
Since the root was given to be -4 we can find b.<br /> | Since the root was given to be -4 we can find b.<br /> | ||
| − | <math> \frac{-b}{2} = s\ | + | <math> \frac{-b}{2} = s<\math> so we get: <math>\frac{-b}{2} = -4\\ therefore b = 8</math><br /> |
| − | Once we know b we can use the critically damped equation to solve for C. | + | Once we know b we can use the critically damped equation to solve for C.<br /> |
<math>\begin{align} | <math>\begin{align} | ||
8^2 - \frac{4}{2C} = 0// | 8^2 - \frac{4}{2C} = 0// | ||
Revision as of 13:46, 2 May 2015
Critically Damped Practice
Practice question for ECE201: "Linear circuit analysis I"
By: Chinar Dhamija
Topic: Critically Damped Second Order Equation
Question
Find the value for C that will make the zero input response critically damped with roots at -4.
Answer
For a response to be critically damped we know that:
$ b^2 - 4c = 0 $
The next step would be to simplify the circuit as shown in the image below. Once simplified it becomes a parallel RLC circuit where we know:
$ b = \frac{1}{RC} and c = \frac{1}{LC}\\ $
Since the root was given to be -4 we can find b.
$ \frac{-b}{2} = s<\math> so we get: <math>\frac{-b}{2} = -4\\ therefore b = 8 $
Once we know b we can use the critically damped equation to solve for C.
$ \begin{align} 8^2 - \frac{4}{2C} = 0// 64 = \frac{2}{C}// C = \frac{1}{32}// \end{align} $
Questions and comments
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