Eigenvalues and eigenvectors
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Linear algebra talks about types of functions called transformations. In that context, an eigenvector is a vector—different from the null vector—which does not change direction after the transformation (except if the transformation turns the vector to the opposite direction). The vector may change its length, or become zero ("null"). The eigenvalue is the value of the vector's change in length, and is typically denoted by the symbol .[1] The word "eigen" is a German word, which means "own" or "typical".[2]
Basics
[change | change source]If there exists a square matrix called A, a scalar λ, and a non-zero vector v, then λ is the eigenvalue and v is the eigenvector if the following equation is satisfied:
In other words, if matrix A times the vector v is equal to the scalar λ times the vector v, then λ is the eigenvalue of v, where v is the eigenvector.
An eigenspace of A is the set of all eigenvectors with the same eigenvalue together with the zero vector. However, the zero vector is not an eigenvector.[4]
These ideas often are extended to more general situations, where scalars are elements of any field, vectors are elements of any vector space, and linear transformations may or may not be represented by matrix multiplication. For example, instead of real numbers, scalars may be complex numbers; instead of arrows, vectors may be functions or frequencies; instead of matrix multiplication, linear transformations may be operators such as the derivative from calculus. These are only a few of countless examples where eigenvectors and eigenvalues are important.
In cases like these, the idea of direction loses its ordinary meaning, and has a more abstract definition instead. But even in this case, if that abstract direction is unchanged by a given linear transformation, the prefix "eigen" is used, as in eigenfunction, eigenmode, eigenface, eigenstate, and eigenfrequency.
Eigenvalues and eigenvectors have many applications in both pure and applied mathematics. They are used in matrix factorization, quantum mechanics, facial recognition systems, and many other areas.
Example
[change | change source]For the matrix A
the vector
is an eigenvector with eigenvalue 1. Indeed, one can verify that:
On the other hand the vector
is not an eigenvector, since
and this vector is not a multiple of the original vector x.
Related pages
[change | change source]- Matrix analysis
- Numerical linear algebra
- Singular value decomposition
- Wikiversity:Eigenvalues for beginners
Notes
[change | change source]- ↑ "Comprehensive List of Algebra Symbols". Math Vault. 2020-03-25. Retrieved 2020-08-19.
- ↑ "Eigenvector and Eigenvalue". www.mathsisfun.com. Retrieved 2020-08-19.
- ↑ Weisstein, Eric W. "Eigenvalue". mathworld.wolfram.com. Retrieved 2020-08-19.
- ↑ Weisstein, Eric W. "Eigenvector". mathworld.wolfram.com. Retrieved 2020-08-19.
References
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- Aldrich, John (2006), "Eigenvalue, eigenfunction, eigenvector, and related terms", in Jeff Miller (ed.), Earliest Known Uses of Some of the Words of Mathematics, retrieved 2006-08-22
- Strang, Gilbert (1993), Introduction to linear algebra, Wellesley-Cambridge Press, Wellesley, MA, ISBN 0-961-40885-5.
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- Akivis, Max A.; Vladislav V. Goldberg (1969), Tensor calculus, Russian, Science Publishers, Moscow.
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- Roman, Steven (2008), Advanced linear algebra (3rd ed.), New York, NY: Springer Science Business Media, LLC, ISBN 978-0-387-72828-5.
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- Pigolkina, T. S. and Shulman, V. S., Eigenvalue (in Russian), In:Vinogradov, I. M. (Ed.), Mathematical Encyclopedia, Vol. 5, Soviet Encyclopedia, Moscow, 1977.
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Other websites
[change | change source]- What are Eigen Values? — non-technical introduction from PhysLink.com's "Ask the Experts"
- Introduction to Eigen Vectors and Eigen Values Archived 2012-03-05 at the Wayback Machine – lecture from Kahn Academy
- Theory
- Eigen Vector Examination working applet
- Same Eigen Vector Examination as above in a Flash demo with sound
- Computation of Eigenvalues
- Numerical solution of eigenvalue problems, edited by Zhaojun Bai, James Demmel, Jack Dongarra, Axel Ruhe and Henk van der Vorst
- Online calculators
- arndt-bruenner.de
- bluebit.gr Archived 2008-12-12 at the Wayback Machine
- wims.unice.fr