ODE_Chapter 05-03 [May 2013]
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Transcript of ODE_Chapter 05-03 [May 2013]
![Page 1: ODE_Chapter 05-03 [May 2013]](https://reader033.fdocuments.in/reader033/viewer/2022051709/577cce351a28ab9e788d8dff/html5/thumbnails/1.jpg)
Ordinary Differential Equations[FCM 1023]
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LAPLACE TRANSFORM
Chapter 5
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Overview
Chapter 5: LAPLACE TRANSFORM
5.1. Definition and Basic Properties
5.2. Inverse Laplace Transform
5.3. Method of Solution
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Learning Outcome
At the end of this section, you should be ableto:
Solve the differential equation (IVP) by usingLaplace transform
5.3 Method of Solution
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If �� is continuous for � ≥ 0 , by using integration by
parts, it gives
ℒ ��(�) = �� ��
��� � ��
= �� � �(�)��� + � �� ��
�� � ��
= −� 0 + �ℒ �(�)� ��(�) = �� � − �(�) ℒ �(�) = � �
5.3 Method of Solution
Transform of a Derivatives
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ℒ ��′(�) = �� ��
���′ � ��
= �� � ��(�)��� + � �� ��
��� � ��
= −�� 0 + �ℒ ��(�)= � �� � − �(0) − ��(0)
� ���(�) = ��� � − �� � − ��(�)By using the same procedure, ℒ ���′(�)� ����(�) = ��� � − ��� � − ��� � − ���(�)
5.3 Method of Solution
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If �, ��, … , �"�# are continuous on $0, ∞) and are of
exponential order and if � " (�) is a piecewisecontinuous on $0, ∞) then
� �(&)(�)= �&� � − � &�' � � − � &�� �� � − ⋯ − �(&�')(�)
where � � = ℒ �(�)
5.3 Method of Solution
Theorem
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ℒ �)*��) = �)+ � − �* 0 − *�(0)
ℒ �*�� = �+ � − * 0
ℒ * = + �
ℒ �,*��, = �,+ � − �)* 0 − �*� 0 − *��(0)
5.3 Method of Solution
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DEApply Laplace Transform, ℒ
Transformed DE becomes algebraic
equation in +(�)
Solve transformed equation for +(�)
Apply inverse transform, ℒ�#
Solution * �of the IVP
5.3 Method of Solution
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Solution:
Step 1: Transform the DE
Use the Laplace Transform to solve the initial-value problem
�*�� + 3* = 13 sin 2� , * 0 = 6
ℒ �*�� + 3* = ℒ 13sin 2�
5.3 Method of Solution
Example 1
ℒ �*�� + 3ℒ * = 13ℒ sin 2�
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ℒ �*�� + 3ℒ * = 13ℒ sin 2�
�+ � − * 0 +3+ � = 13 2�) + 4
5.3 Method of Solution
�+ � − * 0 + 3+ � = 26�) + 4
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ℒ �*�� + 3ℒ * = 13ℒ sin 2�
�+ � − * 0 +3+ � = 13 2�) + 4
5.3 Method of Solution
�+ � − * 0 + 3+ � = 26�) + 4
�+ � − 6 + 3+ � = 26�) + 4
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�+ � − 6 + 3+ � = 26�) + 4
� + 3 + � = 6 + 26�) + 4
+ � = 6� + 3 + 26
� + 3 (�) + 4)
= 6�) + 50� + 3 (�) + 4)
5.3 Method of Solution
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+(�) = 6�) + 50� + 3 (�) + 4)
We are looking for * � = ℒ�# +(�)
6�) + 50� + 3 (�) + 4) = 7
� + 3 + 8� + 9�) + 4
= 8� + 3 + −2� + 6
�) + 4
Step 2: Compute inverse Laplace transform
5.3 Method of Solution
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* � = ℒ�# +(�) = ℒ�# 6�) + 50� + 3 (�) + 4)
= ℒ�# 8� + 3 + −2� + 6
�) + 4
= 8ℒ�# 1� + 3 − 2ℒ�# �
�) + 4 + 6ℒ�# 1�) + 4
* � = 8��,� − 2 cos 2� + 3 sin 2�
5.3 Method of Solution
= ℒ�# 8� + 3 − 2�
�) + 4 + 6�) + 4
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Use the Laplace Transform to solve the initial-value problem
*�� − 3*� + 2* = ��=�, * 0 = 1, *� 0 = 5
ℒ *�� − 3ℒ *� + 2ℒ * = ℒ ��=�
5.3 Method of Solution
Example 2
Solution:
Step 1: Transform the DE
ℒ *�� − 3*� + 2* = ℒ ��=�
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ℒ *�� − 3ℒ *� + 2ℒ * = ℒ ��=�
�)+ � − �* 0 − *�(0) −3 �+ � − * 0 +2+(�) = 1� + 4
5.3 Method of Solution
�)+ � − �* 0 − *�(0) − 3�+ � + 3* 0 + 2+ � = 1� + 4
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ℒ *�� − 3ℒ *� + 2ℒ * = ℒ ��=�
�)+ � − �* 0 − *�(0) −3 �+ � − * 0 +2+(�) = 1� + 4
5.3 Method of Solution
�)+ � − �* 0 − *�(0) − 3�+ � + 3* 0 + 2+ � = 1� + 4
�)+ � − � 1 − 5 − 3�+ � + 3 1 + 2+ � = 1� + 4
�)+ � − 3�+ � + 2+ � − � − 2 = 1� + 4
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�)+ � − 3�+ � + 2+ � − � − 2 = 1� + 4
�) − 3� + 2 + � = 1� + 4 + � + 2
+ � = 1(� + 4)(�) − 3� + 2) + � + 2
(�) − 3� + 2)= �) + 6� + 9
(� + 4)(�) − 3� + 2)= �) + 6� + 9
(� + 4)(� − 1) � − 2
5.3 Method of Solution
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+(�) = �) + 6� + 9(� + 4)(� − 1) � − 2
�) + 6� + 9(� + 4)(� − 1) � − 2 = −#?
@� − 1 +
)@?
� − 2 +#
,�(� + 4)
We are looking for * � = ℒ�# +(�)
Step 2: Compute inverse Laplace transform
5.3 Method of Solution
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* � = ℒ�# −#?@
� − 1 +)@?
� − 2 +#
,�(� + 4)
* � = − 165 ℒ�# 1
� − 1 + 256 ℒ�# 1
� − 2 + 130 ℒ�# 1
� + 4
= − 165 �� + 25
6 �)� + 130 ��=�
5.3 Method of Solution
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Use the Laplace Transform to solve the following IVPs
2)*�� − 7*� + 10* = 4�,�, * 0 = 1, *� 0 = −2
5.3 Method of Solution
Exercise
3)*�� + 9* = ��, * 0 = 0, *� 0 = 0
1)*� + 2* = 0, * 0 = 3