Laplace transform
AmitKundu20
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Aug 19, 2017
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Laplace transform
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STUDY OF LAPLACE TRANSFORM AND IT’S APPLICATIONS Presented By Amit Kundu 161-15-7149 Mehedul Ahsan 161-15-7181 Ankan lahiri 161-15-7074
Index Introduction Laplace transform Properties of Laplace transform Transform of derivatives Application of Laplace Transform
Abstract The concept of Laplace Transforma plays a vital role in wide fields of science and technology such as electric & communication engineering, quantum physics, solution of partial differential operation, etc. This paper provides the reader with a solid foundation in the fundamentals of Laplace Transform and gain an understanding of some of the very important and basic applications of this transformation.
Introduction Transformation in mathematics deals with the conversion of one function to another function that may not be in the same domain . Laplace transform is a powerful transformation tool, which literally transforms the original differential equation into an elementary algebraic expression. This latter can then simply be transformed once again, into the solution of the original problem . This transform is named after the mathematician and renowned astronomer Pierre Simon Laplace who lived in France.
Definition of Laplace Transform Suppose that, f is a real or complex valued function of the variable t > 0 and s is a real or complex parameter. We define the Laplace transform of f as F(s) = L{f(t)} =
Properties of Laplace Transforms Linearity Scaling in time Time shift “frequency” or s-plane shift Multiplication by t n Integration Differentiation
7 Properties of Laplace transform 1) Linearity property : If a, b be any constants and f, g any functions of t, then 2) First shifting property : If then
8 3) Multiplication by If 4) Change of scale property : If then,
9 5) Division of f(t ) by t : If then, provided the integral exists.
Transform of derivatives 10 Laplace transform of the derivative of any order : Let f, f’ , ..., be continuous for all and be piecewise continuous on every finite interval on the semi-axis then transform of given by,
Laplace Transform Of Some Basic Function
Application of Laplace Transform
Solving Ordinary Differential Equation Problem: Y " + aY ' + bY = G(t) subject to the initial conditions Y(0 ) = A , Y' (0) = B where a, b, A, B are constants. Solution: Laplace transform of Y(t) be y(s), or, more concisely, y. Then solve for y in terms of s. Take the inverse transform, we obtain the desired solution Y.
Solving Partial Differential Equation Problem: Solve with the boundary conditions U(x , 0) = 3 sin 2πx, U(0 , t) = 0 and U(1 , t) = 0 where 0 < x < 1, t > 0. Solution: Taking Laplace transform of both sides with respect to t, Substituting in the value of U(x, 0) and rearranging, we get where u = u(x, s) = L[U(x, t]. The general solution of (1) is Determine the values of c1 and c2. Taking the Laplace transform of those boundary conditions that involve t, we obtain c1 =0, c2 = 0. Thus (2) becomes Inversion gives
Solving Electrical Circuits Problem Problem: From the theory of electrical circuits we know, where C is the capacitance, i = i (t) is the electric current , and v = v(t) is the voltage. We have to find the correct expression for the complex impedance of a capacitor. Solution: Taking the Laplace transform of this equation, we obtain, Where , and Solving for V(s) we have We know, So we find: which is the correct expression for the complex impedance of a capacitor.
Other Application of Laplace Transform To determine structure of astronomical object from spectrum To find moment generating function in statistics To determine the present value of consol or bond in economics To solve the problem related to communication and network analysis. To make a equation in simple form from hard equation like vibration of spring. To solve Mixing Problem Involving Two Tanks
Limitation of Laplace Transform O nly be used to solve differential equations with known constants. An equation without the known constants, then this method is useless.
Conclusion Laplace Transformation is powerful tool using in different areas of mathematics, physics and engineering. With the ease of application of Laplace transforms in many applications, many research software have made it possible to simulate the Laplace transformable equations directly which has made a good advancement in the research field.
References Books: The Laplace Transform: Theory and Applications by Joel L. Schiff An Introduction to Laplace Transforms and Fourier Series by Dyke, Phil “Continuum spectra and brightness contours“ - Monthly Notices of the Royal Astronomical Society by Salem & Seaton Websites: http ://en.wikipedia.org/wiki/Laplace_transform http ://electrical4u.com/laplace-transformation/ http ://www.sosmath.com/diffeq/laplace/basic/basic.html http ://tutorial.math.lamar.edu/pdf/Laplace_Table.pdf http ://www.solitaryroad.com/c913.html http ://tutorial.math.lamar.edu/Classes/DE/Laplace_Table.aspx
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