BAB 4 JELMAAN LAPLACE · Web view2013/04/04 · Laplace transforms will allow us to transform a...
Transcript of BAB 4 JELMAAN LAPLACE · Web view2013/04/04 · Laplace transforms will allow us to transform a...
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CHAPTER 5
Laplace Transform
Focus of Attention
What is a Laplace Transforms?
How to use the standard Laplace
Transforms Tables?
What are the properties of Laplace
transforms? Linearity?
What are the First Shift Theorem?
Multiplication by t theorem?
What are the Laplace Transforms of
first and second order derivatives?
How to solve differential equations
using Laplace Transforms?
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5.1 Introduction
Laplace transforms will allow us to transform
a Differential Equation into an algebraic
equation.
5.1.1Definition and Notation
Let , the Laplace transform of y is defined
by
LThe transformed function is called , thus
L
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Revision: Integrating improper integrals
is convergent if the limit is finite
and is divergent, if the limit is non-
finite.
5.1.2Laplace Transforms of Some Simple FunctionsThe definition of the Laplace transform is
L
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Finding Laplace transforms of some functions
using basic principles.
Example 5.1 (a): Laplace transform of
If , then L
L {1} =
Since: then
L = L
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Example 5.1 (b): Laplace transform of the
form
Find L .
L = 5 L =
Example 5.1 (c): Laplace transform of
If , then
L L
- use integration by parts with
L
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Example 5.1 (d): Laplace transform of
Find L .
Therefore, L .
Using integration by parts twice:
L
Important note: must know how to use the
Tables of Laplace Transforms.
Example 5.2: Using tables to find Laplace
Transforms
Find the Laplace Transform of each of the
following function:
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(a) (b)
Solution
(a)
Looking at the table, we find
L =
So, L =
(b)
From the table, we find L { } =
Therefore, L { } =
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Structured Examples: Finding Laplace Transforms
Using the standard tables of Laplace
Transforms
Question 1Find the Laplace Transform
of each of the following
function:
(a)
(b)
Prompts/ Questions What is a
Laplace transform?
How does the function compares to the standard function?
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How to find Laplace Transforms of
?
We will need:
5.2 Properties of Laplace Transforms
(1) Linearity
Let L and L exist with and
constants, then
L L L
(2) First Shift Theorem
Let L with a constant, then
L
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Example 1.11 :Using tables and linearity
law
(a) Find the Laplace Transform of each of the
following function
(1) (2)
Solution
(1)
L = 2 L 4 L + L (1) =
= .
(2)
L = 2 L (sin 3t) L
= .
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Example 1.12: Using tables and the First
Shift Theorem
(a) Find the Laplace Transform of each of the
following function
(1) (2)
Solution
(1) L =
(2) L =
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Question 13Find the Laplace Transform
of each of the following
function:
(a)
(b)
(c)
Prompts/ Questions What is a
Laplace transform?
How does the function compares to the standard function?oWhich
formula do you need to change the expression into the standard form?
Which theorems must be used?
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1.3.1 Transform of a Derivative
We can find the Laplace transforms of the
first and second derivative. Thus, we can use
these transforms to convert the differential
equations into an algebraic form.
(1) Transform of the First Derivative
L L
If then L L
OR L
Example 1.12 (a): Laplace transform of the
first derivative
Find the Laplace Transform of with the
initial condition that .
Solution:
Take Laplace transform of both sides
L = L
Use Table of Laplace Transform
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L L
L
s L =
s L = .
L =
(2) Transform of the Second Derivative
L L
If then L L
OR L
Example 1.12(b): Laplace transforms of
the second derivative
Find the Laplace Transform of
with the initial condition that and
Solution
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From the tables: L L and L L
L = L (0)
We know that L = Y(s) and and
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Question 14Find the Laplace transform
of each expression and
substitute the given initial
conditions
(2)
4)
Prompts/ Questions What is the
Laplace Transform of first and second order derivatives?o What do
you do with the initial values?
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1.3.2 Inverse Transforms
If L , then is called the Inverse
Laplace Transform of and is written as
L 1
We find the inverse Laplace
Transform by reading the same tables but
in reverse.
We have chosen a few functions to
illustrate how it is done.
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L 1
a
Example 1.13: Finding the inverse Laplace
Transforms
Find for the following Laplace
transforms:
(a) (b)
(c)
Solution:
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Use the Table of Laplace transform:
(b)
(c)
Rearrange or modify so that it looks
like a function in the table
make sure that you still have the
original function:
Review: Changing expressions into
standard forms – some algebraic
manipulations
(1) Completing the square
(2) Partial Fractions
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Example 1.14(a): Completing the square
Find y if L
Solution:
1) change to an expression in a
form similar to those that can be found in
the tables.
Check denominator: standard? factorise?
use method of completing the square?
Check numerator: modify if necessary
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2) Find y
Example 1.14 (b): Using Partial Fractions
Find y if
Solution:
1) modify to be comparable to standard
forms in the tables:
Check denominator:
Check expression: suitable for conversion
to partial fractions
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Solve for A and B : Compare numerator:
Solve simultaneously:
2) Find y
=
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REVISION:
Other Standard forms of partial fractions
(a) Expressions are of the form where
and are polynomials in s and the
degree of is less than the degree of .
Example 1.15 (a): is a constant and
has linear factors
Example 1.15(b): is a constant and
has linear factors with some factors
repeated
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Example 1.15(c): is a constant and
has linear and quadratic factors
(i)
(ii)
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1.3.3 Solving Differential Equations using
Laplace Transform
The method converts the differential
equations into algebraic expressions in
terms of s.
The expressions have to be
manipulated such that the function
can be obtained from the inverse
Laplace Transforms.
Example 1.16: Solve the differential equation
with the initial conditions
Solution:
1. Take Laplace transforms of both sides
[0]
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[ ]+ = 0
Use the formula of Laplace Transforms of
first and second order derivatives:
+ 2s 3
2. Solve for
Given: ; substitute the
initial conditions
+ 2s 3
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3. Convert into standard forms
Use partial fractions
Compare numerator:
Thus,
Solving simultaneously:
and
=
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4. Find the inverse Laplace Transforms:
use tables
Example 1.17: Solve the differential equation
where y is a function of t, if
and are both zero at .
Solution:
5. Take Laplace transforms of both sides
[0]
+ = 0
+ 4 = 0
6. Solve for
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= since
=
7. Convert into standard forms
Use partial fractions
Compare numerator:
Thus,
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=
8. Find the inverse Laplace Transform:
use tables
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Question 15Solve the following initial value problems
(a)
(b)
(c)
Prompts/ Questions What is the
Laplace Transforms or equations?
What is the Laplace Transform of first and second order derivatives?oWhat do you do
with the initial values?
How does your expression compare to the standard forms?o Which
algebraic manipulations do you need?
How do you find the inverse Laplace Transforms?
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