Lecture 2: The Laplace Transform Laplace transform definition Laplace transform properties Relation between time and Laplace domains Initial and Final.

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Presentation transcript:

Lecture 2: The Laplace Transform Laplace transform definition Laplace transform properties Relation between time and Laplace domains Initial and Final Value Theorem Introduction to MATLAB ME 431 Lecture 2 1

The Laplace Transform The Laplace transform is a mathematical operation that takes an equation from being a function of time, t, to being a function of the Laplace variable, s Some mathematical operations become much simpler in the Laplace domain We will never solve this integral, will use tables ME 431 Lecture 2 2

Item No. f(t)f(t)F(s)F(s) δ(t)δ(t) 1(t) t tntn e -at sin (ωt) cos (ωt) Table of Laplace pairs on pages unit impulse unit step unit ramp t 1 tt ME 431 Lecture 2 3

Properties of the Laplace Transform 1.Linearity - constants factor out and Laplace operation distributes over addition and subtraction -note: ME 431 Lecture 2 4 Table of Laplace properties on page 20

Properties of the Laplace Transform 2. Integration 3. Differentiation ME 431 Lecture 2 5 These properties turn differential equations into algebraic equations often zero

Properties of the Laplace Transform 4. Multiplication by e -at - important for damped response Example: ME 431 Lecture 2 6 Note: roots of denominator (poles) in Laplace domain = roots of characteristic equation in the time domain f(t)f(t)

Properties of the Laplace Transform 5. Time shift - important for analyzing time delays ME 431 Lecture 2 7

Properties of Laplace Transform 6. Multiplication by t ME 431 Lecture 2 8

Example Find

Example

Laplace/Time Domain Relationship Previously, saw how poles of X(s) relate to x(t) Two further relationships between X(s) and x(t) : Initial Value Theorem Final Value Theorem ME 431 Lecture 2 11

Example Find the initial value of f(t), where

Example Find the final value of f(t), where

MATLAB Introduction ME 431 Lecture 2 14

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