Laplace Transforms: Coupled Springs: Difference between revisions

From Class Wiki
Jump to navigation Jump to search
No edit summary
No edit summary
Line 22: Line 22:


'''Part 2: Inverse Laplace Transform'''
'''Part 2: Inverse Laplace Transform'''

[[Image:5.jpg]]


'''Part 3: Initial-Value & Final-Value Theorem'''

By definition, the Initial-Value Theorem is,

<math>\lim_{s\rightarrow \infty} sX(s)=x(0)\,</math>

and the Final-Value Theorem is,

<math>\lim_{s\rightarrow 0} sX(s)=x(\infty)\,</math>


Applying this to the system i get the following.

[[Image:6.jpg]]

Revision as of 15:06, 10 December 2009

Jaymin Joseph

Part 1: Laplace Transform

Problem Statement: (Equations typed out in mathcad and uploaded as images)

This is a system of two masses connected by two springs with spring constants k1 and k2. This system is shown below. Fbd.JPG

From the FBD, the equations of motion can be determined to be as follows:

2.jpg

To solve the system let K1=6 k2=4, m1=1, m2=1 and x1(0)=0, x1'(0)=1 x2(0)=0, x2'(0)=-2

3.jpg

4.jpg


Part 2: Inverse Laplace Transform

5.jpg


Part 3: Initial-Value & Final-Value Theorem

By definition, the Initial-Value Theorem is,

and the Final-Value Theorem is,


Applying this to the system i get the following.

6.jpg