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PHY 711 Classical Mechanics and Mathematical Methods

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1 PHY 711 Classical Mechanics and Mathematical Methods
11-11:50 AM MWF Olin 107 Plan for Lecture 16: Read Chapter 7 & Appendices A-D Generalization of the one dimensional wave equation  various mathematical problems and techniques including: Sturm-Liouville equations Orthogonal function expansions; Fourier analysis Green’s functions methods Laplace transformation Contour integration methods 10/07/2016 PHY 711 Fall Lecture 16

2 Sturm-Liouville Equations
10/07/2016 PHY 711 Fall Lecture 16

3 10/07/2016 PHY 711 Fall Lecture 16

4 Linear second-order ordinary differential equations
Sturm-Liouville equations applied force given functions solution to be determined Homogenous problem: F(x)=0 10/07/2016 PHY 711 Fall Lecture 16

5 Examples of Sturm-Liouville eigenvalue equations --
10/07/2016 PHY 711 Fall Lecture 16

6 Solution methods of Sturm-Liouville equations (assume all functions and constants are real):
10/07/2016 PHY 711 Fall Lecture 16

7 Comment on “completeness”
It can be shown that for any reasonable function h(x), defined within the interval a < x <b, we can expand that function as a linear combination of the eigenfunctions fn(x) These ideas lead to the notion that the set of eigenfunctions fn(x) form a ``complete'' set in the sense of ``spanning'' the space of all functions in the interval a < x <b, as summarized by the statement: 10/07/2016 PHY 711 Fall Lecture 16

8 Variation approximation to lowest eigenvalue
In general, there are several techniques to determine the eigenvalues ln and eigenfunctions fn(x). When it is not possible to find the ``exact'' functions, there are several powerful approximation techniques. For example, the lowest eigenvalue can be approximated by minimizing the function where is a variable function which satisfies the correct boundary values. The ``proof'' of this inequality is based on the notion that can in principle be expanded in terms of the (unknown) exact eigenfunctions fn(x): where the coefficients Cn can be assumed to be real. 10/07/2016 PHY 711 Fall Lecture 16

9 Estimation of the lowest eigenvalue – continued:
From the eigenfunction equation, we know that It follows that: 10/07/2016 PHY 711 Fall Lecture 16

10 Rayleigh-Ritz method of estimating the lowest eigenvalue
10/07/2016 PHY 711 Fall Lecture 16

11 Green’s function solution methods
Recall: 10/07/2016 PHY 711 Fall Lecture 16

12 Solution to inhomogeneous problem by using Green’s functions
Solution to homogeneous problem 10/07/2016 PHY 711 Fall Lecture 16

13 Example Sturm-Liouville problem:
10/07/2016 PHY 711 Fall Lecture 16

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17 10/07/2016 PHY 711 Fall Lecture 16

18 General method of constructing Green’s functions using homogeneous solution
10/07/2016 PHY 711 Fall Lecture 16

19 10/07/2016 PHY 711 Fall Lecture 16

20 10/07/2016 PHY 711 Fall Lecture 16

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