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This will give us the angle (in degrees) of the pendulum at any given time '''t'''. |
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This will give us the angle (in degrees) of the pendulum at any given time '''t'''. |
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== Initial Value Theorem == |
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The Initial Value Theorem (IVT) uses the |
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== Final Value Theorem == |
Revision as of 14:18, 23 October 2009
Problem
A simple pendulum with a length L = 0.5m is pulled back and released from an initial angle . Find an equation that gives the angle of the pendulum at any given time t.
Solution
Assuming no damping and a small angle(), the equation for the motion of a simple pendulum can be written as
Substituting values we get
Remember the identities
Now we can take the Laplace Transform to change the second order differential equation, from the t domain, into a simple linear equation, from the s domain, that's much easier to work with
Since we know that and the initial velocity we get
Now we can take the inverse Laplace Transform to convert our equation back into the time domain using the identity
We get
This will give us the angle (in degrees) of the pendulum at any given time t.
Initial Value Theorem
The Initial Value Theorem (IVT) uses the
Final Value Theorem