What Are the Real Meanings and Purposes of Eigenvalues and Eigenvectors?

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Discussion Overview

The discussion centers on the meanings and purposes of eigenvalues and eigenvectors, exploring their roles in linear algebra, particularly in relation to diagonalization of matrices and their implications in various mathematical contexts.

Discussion Character

  • Technical explanation
  • Conceptual clarification
  • Debate/contested
  • Mathematical reasoning

Main Points Raised

  • Some participants explain that eigenvalues and eigenvectors allow for the simplification of matrix operations by enabling the diagonalization of matrices, which makes computations easier.
  • There is a discussion about the conditions under which a matrix can be diagonalized, with some asserting that unique eigenvalues are not necessary, but a full set of linearly independent eigenvectors is required.
  • One participant clarifies that eigenvectors are vectors that, under a linear transformation, are scaled by their corresponding eigenvalues.
  • Questions are raised regarding the relationship between eigenvalues and determinants, specifically how determinants are used to find eigenvalues through the characteristic polynomial.
  • There is a mention of the Kronecker Delta in relation to eigenvalue calculations, suggesting a connection between linear algebra and tensor calculus.
  • Another participant inquires about the orthogonality of eigenvectors in relation to a given matrix.
  • A detailed condition for diagonalizability is presented, linking it to the minimal polynomial and the characteristic polynomial of a matrix.

Areas of Agreement / Disagreement

Participants express differing views on the requirements for diagonalizability and the implications of eigenvalues and eigenvectors, indicating that multiple competing perspectives remain unresolved.

Contextual Notes

Some statements depend on specific definitions and assumptions regarding linear independence and the nature of eigenvalues, which may not be universally applicable.

shankar
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can anyone explain the the real meaning and purpose of eigen vlaue and eigen vectors..

:smile:
 
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You know how easy it is to work with diagonal matrices, right?

Consider the fact that (nearly) every square matrix can, after a suitable change of basis, be written as a diagonal matrix whose entries are simply its eigenvalues.

So in one sense, using eigenvalues and eigenvectors let's you treat (nearly) any matrix similarly to a diagonal matrix, making the work easier.
 
This works providing the matrix has unique eigenvalues, right? Do we need a full set of linearly independent eigenvectors?
 
Actually, in order for a matrix to be diagonalizable, it is NOT necessary that all the eigenvalues be unique. It IS necessary that all the eigenvectors be independent- that is that there exist a basis for the vector space consisting of eigenvectors.
Essentially, the eigenvectors are those vectors on which the linear tranformation acts like simple scalar multiplication.
 
If you have some square matrix then a non-zero vector x in R^n is an eigenvector of A if Ax is a scalar multiple of x. This scalar is called an eigenvalue of A.

Q) So if you have some vector then scalar multiples of it only 'stretches' or 'compresses' it by a factor of your eigenvalue? Explain. And how can we use determinants in finding eigenvalues of a given matrix?

(off-topic) Has this got anything to do with the Kronecker Delta in Tensor Calculus?
 
Originally posted by Oxymoron
(off-topic) Has this got anything to do with the Kronecker Delta in Tensor Calculus?

Yes, it does.

When calculating the eigenvalues {λn} of a matrix A, you have to solve the equation:

det(A-λI)=0.

If we rewrite that in terms of matrix elements (IOW, with indices) we can write:

det(Aij-λIij),

the identity matrix Iij is none other than the Kronecker delta, δij.
 
finding eigen vector for the matrix A, will it give the orthogonal quantity of the matrix..
 
an n by n matrix M is diagonalizable if and only if the space R^n has a basis of eigenvectors of M, if and only if the minimal polynomial P of M consists of a product of different linear factors, if and only if the characteristic polynomial Q splits into a product of linear factors, and for each root c of Q, the kernel of M-cId has dimension equal to the power with which the factor (X-c) occurs in Q.

see http://www.math.uga.edu/~roy/
 

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