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Chap 4 Laplace Transform . 中華大學 資訊工程系 Fall 2002. Outline. Basic Concepts Laplace Transform Definition, Theorems, Formula Inverse Laplace Transform Definition, Theorems, Formula Solving Differential Equation Solving Integral Equation. Basic Concepts. 微分方程式. 代數方程式. Laplace Transform.
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Chap 4 Laplace Transform 中華大學 資訊工程系 Fall 2002
Outline • Basic Concepts • Laplace Transform • Definition, Theorems, Formula • Inverse Laplace Transform • Definition, Theorems, Formula • Solving Differential Equation • Solving Integral Equation
Basic Concepts 微分方程式 代數方程式 Laplace Transform Differential Equation f(t) L{ f(t)} = F(s) Algebra Equation F(s) Inverse Laplace Transform Solution of Differential Equation f(t) L-1{F(s)} = f(t) Solution of Algebra Equation F(s)
Basic Concepts Laplace Transform L{ f(t)} = F(s) Inverse Laplace Transform L-1{F(s)} = f(t)
Laplace Transform • Definition The Laplace transform of a function f(t) is defined as • Converges: L{f(t)} exists • Diverges: L{f(t)} does not exist
Laplace Transform s=0.125 e-st s=0.25 s=0.5 s=1 s=2 s=4 s=8 t
Laplace Transform • Example : Find L{ 1} Sol:
Laplace Transform • Example : Find L{ eat } Sol:
Laplace Transform • Example 4-2 : Find L{ tt } Sol: L{ tt } does not exist
Laplace Transform • Exercise 4-1 : • Find • Find • Find • Find
Laplace Transform • Theorems Definition of Laplace Transform Linear Property Derivatives Integrals First Shifting Property Second Shifting Property
Laplace Transform • Theorems Change of Scale Property Multiplication by tn Division by t Unit Impulse Function Periodic Function Convolution Theorem
First Shifting Theorem • If f(t) has the transform F(s) (where s > k), then eatf(t) has the transform F(s-a), (where s-a > k), in formulas, or, if we take the inverse on both sides
Excises sec 5.1 • #1, #7, #19, #24, #29,#35, #37,#39
Laplace of Transform the Derivative of f(t) • Prove Proof:
Examples • Example 1: Let f(t)=t2, Derive L(f) from L(1) • Example 2: Derive the Laplace transform of cos wt
Differential Equations, Initial Value Problem • How to use Laplace transform and Laplace inverse to solve the differential equations with given initial values
Example : Explanation of the Basic Concept • Examples
Laplace Transform of the Integral of a Function • Theorem : Integration of f(t) Let F(s) be the Laplace transform of f(t). If f(t) is piecewise continuous and satisfies an inequality of the form (2), Sec. 5.1 , then or, if we take the inverse transform on both sides of above form
An Application of Integral Theorem • Examples
Laplace Transform • Unit Step Function (also called Heaviside’s Function)
Second Shifting Theorem; t-shifting • IF f(t) has the transform F(s), then the “shifted function” has the transform e-asF(s). That is
The Proof of the T-shifting Theorem • Prove Proof:
Application of Unit Step Functions • Note • Find the transform of the function
Example : Find the inverse Laplace transform f(t) of
Area = 1 Short Impulses. Dirac’s Delta Function
Area = 1 Laplace Transform • Unit Impulse Function (also called Dirac Delta Function)
Laplace Transform • Example 4-6 : Prove Proof
Homework • section 5-2 #4, #7, #9, #18, #19 • Section 5-3 #3, #6, #17, #28, #29
Differentiation and Integration of Transforms • Differentiation of transforms
Example Find the inverse transform of the function
Convolution. Integration Equation • Convolution • Properties
Example1 Using the convolution, find the inverse h(t) of • Example 2 • Example 3
Laplace Transform • Example 4-7 : Prove Proof:
Integration Equations • Example
Homeworks • Section 5-4 • #1,#13 • Section 5-5 • #7, #14, #27
Laplace Transform • Formula
Laplace Transform • Formula
Inverse Laplace Transform • Definition The Inverse Laplace Transform of a function F(s) is defined as
Inverse Laplace Transform • Theorems Inverse Laplace Transform Linear Property Derivatives Integrals First Shifting Property Second Shifting Property
Inverse Laplace Transform • Theorems Change of Scale Property Multiplication by tn Division by t Unit Impulse Function Unit Step Function Convolution Theorem