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(New page: [[Image:[[Image:'''Basic Laplace Transforms''' The laplace transform has the standard form of: :<math>F(s) = \mathcal{L} \left\{f(t)\right\}=\int_0^{\infty} e^{-st} f(t) \,dt </math> (C...)
 
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[[Image:[[Image:'''Basic Laplace Transforms'''
'''Basic Laplace Transforms'''


The laplace transform has the standard form of:
The laplace transform has the standard form of:
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:<math>F(s) = \mathcal{L} \left\{f(t)\right\}=\int_0^{\infty} e^{-st} f(t) \,dt </math> (Cited From Fullerton, Colby)
:<math>F(s) = \mathcal{L} \left\{f(t)\right\}=\int_0^{\infty} e^{-st} f(t) \,dt </math> (Cited From Fullerton, Colby)


However, in this class applying the standard form exclusively to solve problems is not practical. The use of Laplace transform properties greatly simplifies problems. These properties are listed in the book on page 525. The simple properties are listed below and as imported images from mathcad.
However, in this class applying the standard form exclusively to solve problems is not practical. The use of Laplace transform properties greatly simplifies problems. These properties are listed in the book on page 525. The simple properties are listed below and are imported images from mathcad.


'''Linearity'''
'''Linearity'''
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'''Examples:'''
'''Example:'''

If F(s)=(s+2)/(S+1) and f(t)=0 for t<0, then find the Laplace transform for the following functions identifying each property used to compute answers.

'''(a)''' <math>g_1(t)=5f(t-2)</math> '''(b)'''<math>g_2(t)=5(e^{-2t})f(t)</math>



(a) Linearity:
<math>F(s)=(5(s+2))/(s+1)</math>

Time Shift:
<math>\mathcal{L} \left\{f(t-2)u(t-2)\right\}=e^{-2s}F(s) </math> = '''<math>(5e^{-2s}(s+2))/(s+1)</math>'''


(b) Linearity: <math>a_1F(s) = {5(s+2)}/(s+1) </math>
Frequency Shift:
<math>\mathcal{L} \left\{e^{-at}f(t)\right\}=F(s+a) </math>

<math>(5((s+2)+2)))/((s+2)+1)=(5s+20)/(s+1)</math>


<u>'''Author:'''</u>
Jaymin Joseph

'''<u>Reviewed by:</u>'''
*[[Grant, Joshua|Joshua Grant]]



<u>'''Read By:'''</u>

Latest revision as of 11:40, 20 January 2010

Basic Laplace Transforms

The laplace transform has the standard form of:

(Cited From Fullerton, Colby)

However, in this class applying the standard form exclusively to solve problems is not practical. The use of Laplace transform properties greatly simplifies problems. These properties are listed in the book on page 525. The simple properties are listed below and are imported images from mathcad.

Linearity

P1.jpg


P2.jpg


Example:

If F(s)=(s+2)/(S+1) and f(t)=0 for t<0, then find the Laplace transform for the following functions identifying each property used to compute answers.

(a) (b)


(a) Linearity:

Time Shift: =


(b) Linearity:

    Frequency Shift:


Author: Jaymin Joseph

Reviewed by:


Read By: