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- ...h>\scriptstyle \lambda_i</math> and <math>\scriptstyle \psi_i</math> is an eigenvalue and eigenvector of ''X'', respectively. For a simple illustration, consider5 KB (726 words) - 01:57, 30 September 2009
- The diagonal entries are the [[eigenvalue]]s of a diagonal matrix.2 KB (230 words) - 02:39, 7 January 2009
- ...rge-scale solvers important in scientific computing (e.g., linear systems, eigenvalue problems, non-linear optimization). Baker's principal work is on Anasazi, t1 KB (195 words) - 03:36, 22 November 2023
- ...nt +1. Since for such (non-identity) matrices exactly one eigenvector has eigenvalue +1, this eigenvector gives the direction of the axis. ...that the vector '''n''' is an [[eigenvector]] of the matrix '''R''' with eigenvalue λ = 1.12 KB (1,865 words) - 02:49, 19 April 2010
- * Corresponding to each eigenvalue λ<sub>''n''</sub> is a unique (up to a normalization constant) eigen ...neralized operator eigenvalue equation. It can be transformed to a regular eigenvalue equation by substitution of15 KB (2,332 words) - 04:52, 18 October 2009
- Eigenfunctions of the [[Fourier Operator]] with eigenvalue unity are also eigenfunctions of the [[CosFourier]]. Such functions can be2 KB (288 words) - 17:57, 8 September 2020
- ...h>\scriptstyle \lambda_i</math> and <math>\scriptstyle \psi_i</math> is an eigenvalue and eigenvector of ''X'', respectively. For a simple illustration, consider8 KB (1,259 words) - 03:56, 22 November 2023
- ...r these points the potential energy ''V''(''x'') is larger than the energy eigenvalue. As an example two small vertical lines are plotted: to the left of the sm ...ative, so that ''V'' ≤ ''E''. This is why the region, where the energy eigenvalue of an eigenfunction is smaller than the potential energy, is called a ''cla10 KB (1,632 words) - 21:28, 11 September 2021
- ...the differential equation has the form of an [[eigenvalue equation]] with eigenvalue −''n''(''n''+1) of the operator7 KB (1,091 words) - 06:21, 10 September 2009
- ...can be done because the two equations are equivalent to the [[generalized eigenvalue problem]] ...[numerical mathematics]] several algorithms are known to solve generalized eigenvalue problems. The solution yields the matrix '''L''' and the diagonal matrix ''13 KB (1,996 words) - 10:52, 3 November 2021
- The second equation has the form of an operator [[eigenvalue equation]]. The eigenvalue ''E'' (one of the possible observable values of the energy) is real, which7 KB (1,095 words) - 09:21, 15 February 2010
- ...m, expressed in displacement coordinates, one must solve the [[generalized eigenvalue problem]] ...diagonal matrix <math>\scriptstyle \boldsymbol{\Phi}</math> contains the [[eigenvalue]]s, while20 KB (3,213 words) - 02:14, 23 February 2010
- ...wever, the two polynomials have the same set of roots, namely the set of [[eigenvalue]]s of ''A''.4 KB (613 words) - 02:34, 4 January 2013
- ...function; id set, $~S~$ is [[eigenfunction]] of the Fourier operator with eigenvalue unity. ...self-Fourier functions are [[eigenfunction]] of the Fourier operator with eigenvalue unity.11 KB (1,589 words) - 08:58, 9 September 2020
- ...sharp. This means that the observable takes a value which is one of the [[Eigenvalue|eigenvalues]] of the Hermitian matrix. This set of values is the observable3 KB (562 words) - 00:00, 17 February 2010
- ...sup>2</sup> has only non-negative real eigenvalues. Therefore we write its eigenvalue as the squared number ''a''<sup>2</sup>. ...h>\scriptstyle a^2</math> and an eigenvector of ''j''<sub>''z''</sub> with eigenvalue ''b'' + 1, so that16 KB (2,632 words) - 04:33, 23 September 2021
- ...this molecule, is a [[partial differential equation|partial differential eigenvalue equation]] in 162 variables—the spatial coordinates of ''the electron ...'' stands for all electronic coordinates. Obviously, the electronic energy eigenvalue ''E''<sub>elec</sub> depends on the chosen positions '''R''' of the nuclei.20 KB (3,194 words) - 03:34, 8 November 2013
- ...s of the time-independent [[Schrödinger equation]] of molecules—the eigenvalue equation of a [[molecular Hamiltonian]] (quantum mechanical energy operato ...h is not surprising, as the corresponding HF operator equation is also an eigenvalue equation. The matrix to be diagonalized (known as the ''Fock matrix'' '''F20 KB (3,082 words) - 17:39, 9 December 2008
- ...''n'' roots (zeros) λ<sub>''i''</sub>, ''i'' =1, ..., ''n'', the [[eigenvalue]]s of '''A''' and the following factorization holds ...s ε<sub>''i''</sub>. When ''H'' is bounded from below (its lowest eigenvalue is finite) then the sum12 KB (1,903 words) - 10:57, 2 February 2009
- ...hat the fact that the time independent equation takes the form of a simple eigenvalue problem (thus being more amenable to mathematical analysis) that makes it s ...matically, the time-independent Schrödinger equation is an example of an [[eigenvalue problem]] whose eigenvectors ψ are called "wavefunctions" or "quantum17 KB (2,678 words) - 10:12, 9 May 2011