Definitions Of The Laplace Transform, Laplace Transform .
Definitions of the Laplace Transform, LaplaceTransform Examples, and Functions)
In this lesson, we'll introduce our last transform, theLaplace Transform. The Laplace Transform is useful in anumber of different applications: 1. Using the Laplace Transform, differential equations can besolved algebraically.2. We can use pole/zero diagrams from the Laplace Transformto determine the frequency response of a system and whether ornot the system is stable.3. We can transform more signals than we can with the FourierTransform, because the Fourier Transform is a special case of theLaplace Transform.4. The Laplace Transform is used for analog circuit design.5. The Laplace Transform is used in Control Theory andRobotics
The Bilateral Laplace Transform of a signal x(t) is defined as:The complex variable s σ jω, where ω is the frequency variable of the FourierTransform (simply set σ 0). The Laplace Transform converges for more functions thanthe Fourier Transform since it could converge off of the jω axis. Here is a plot of the splane:The Inverse Bilateral Laplace Transform of X(s) is:
Notice that to compute the inverse Laplace Transform, it requires a contourintegral. (When taking the inverse transform, the value of c for the contour integralmust be in the region where the integral exists.) Fortunately, we will see moreconvenient ways (namely, Partial Fraction Expansion) to take the inverse transformso you are not required to know how to do contour integration.If we define x(t) to be 0 for t 0, this gives us the unilateral Laplace transform:As we'll see, an important difference between the bilateral and unilateral LaplaceTransforms is that you need to specify the region of convergence (ROC) for thebilateral case.
We point out (without proof) several features of ROCs: A right-sided time function (i.e. x(t) 0, t t0 where t0 is a constant) has an ROC thatis a right half-plane. A left-sided time function has an ROC that is a left half-plane. A 2-sided time function has an ROC that is either a strip or else the ROC does notexist, which means that the Laplace Transform does not exist. If the ROC contains the jω- axis, then if x(t) were used as an impulse response, thesystem would be BIBO stable. If the boundary of the ROC is the jω-axis (i.e. Re(s) 0 orRe(s) 0), the system would be BIBO unstable.Taking the Laplace Transform is clearly a linear operation:L[ax1(t) bx2(t)] aX1(s) bX2(s)where X1(s) is the Laplace Transform of x1(t) and X2(s) is the Laplace Transform of x2(t).
Example 1 Find L[u(t)]In Example 1, we needed to specify that Re(s) 0. If this is not the case, the integralwould have not converged at the upper limit of infinity.
Example 2 Find the Laplace Transform ofx1 (t ) e t u (t )The general Laplace Transform for an exponential function is:
Example 3 Find the Laplace Transform of
Example 4 Find the Laplace Transform of sin(bt)u(t)
Laplace Transform PropertiesAs we saw from the Fourier Transform, there are a number of properties that cansimplify taking Laplace Transforms. I'll cover a few properties here and you can readabout the rest in the textbook.Derive this:Plugging in the time-shifted version of the function into the Laplace Transformdefinition, we get:Letting τ t - t0, we get:
Example 1 Find the Laplace Transform of x(t) sin[b(t - 2)]u(t - 2)
Recall the equation for the voltage of an inductor:If we take the Laplace Transform of both sides of this equation, we get:which is consistent with the fact that an inductor has impedance sL.
1) First write x(t) using the Inverse Laplace Transform formula:2) Then take the derivative of both sides of the equation with respect to t (this bringsdown a factor of s in the second term due to the exponential):3) This shows that x'(t) is the Inverse Laplace Transform of s X(s):The Differentiation Property is useful for solving differential equations.
Recall the equation for the voltage of a capacitor turned on at time 0:If we take the Laplace Transform of both sides of this equation, we get:which is consistent with the fact that a capacitor has impedance.
Derive this:Take the derivative of both sides of this equation with respect to s:This is the expression for the Laplace Transform of -t x(t). Therefore,
(Given without proof)(Given without proof)
Derive this:Plugging in the definition, we find the Laplace Transform of x(at -b):Let u at - b and du adt, we get:
Using the Laplace Transform, differential equations can be solved algebraically. 2. We can use pole/zero diagrams from the Laplace Transform to determine the frequency response of a system and whether or not the system is stable. 3. We can tra
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Laplace Transform in Engineering Analysis Laplace transforms is a mathematical operation that is used to “transform” a variable (such as x, or y, or z, or t)to a parameter (s)- transform ONE variable at time. Mathematically, it can be expressed as: L f t e st f t dt F s t 0 (5.1) In a layman’s term, Laplace transform is used
Introduction to Laplace transform methods Page 1 A Short Introduction to Laplace Transform Methods (tbco, 3/16/2017) 1. Laplace transforms a) Definition: Given: ( ) Process: ℒ( ) ( ) 0 ̂( ) Result: ̂( ), a function of the “Laplace tr
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