Wikipedia:WikiProject Mathematics/PlanetMath Exchange/15-XX Linear and multilinear algebra; matrix theory

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This page provides a list of all articles available at PlanetMath in the following topic:

15-XX Linear and multilinear algebra; matrix theory.

This list will be periodically updated. Each entry in the list has three fields:

1. PM : The first field is the link to the PlanetMath article, along with the article's object ID.
2. WP : The second field is either a "guessed" link to a correspondingly named Wikipedia article, produced by the script which generated the list, or one or more manually entered links to the corresponding Wikipedia articles on the subject.
3. Status : The third field is the status field, which explains the current status of the entry. The recommended status entries are:

Status	means PM article
N	not needed
A	adequately covered
C	copied
M	merged
NC	needs copying
NM	needs merging

• Please update the WP and Status fields as appropriate.
• if the WP field is correct please remove the qualifier "guess".
• If the corresponding Wikipedia article exists, but the link to it is wrong, please fix the link.
• If you copy or merge an article from PlanetMath, please update the WP and Status fields for that entry.
• If you have any comments, for example, thoughts on how the PlanetMath article compares to the corresponding Wikipedia article(s), please place such comments on a new indented line following the entry. Comments of this kind are very valuable.

Don't forget to include the relevant template if you copy over text or feel like an external link is warranted

• {{planetmath|id=|title=}} for copied over text
• {{planetmath reference|id=|title=}} for an external link

See the main page for examples and usage criteria.

One can use the web-based program Pmform to convert PlanetMath articles to the Wikipedia format. As a side benefit, this tool will place the PlanetMath template for you.

• PM: anti-diagonal matrix, id=6964 -- WP: anti-diagonal matrix -- Status: C

Copied and made suitable for WP. Jitse Niesen (talk) 13:58, 24 July 2005 (UTC)[reply]

• PM: antipodal, id=4731 -- WP: antipodal point -- Status: M

The PM article has some topological information on the antipodal map, which is now merged into the WP article. Jitse Niesen 21:38, 19 Mar 2005 (UTC)

• PM: Cholesky decomposition, id=1287 -- WP: Cholesky decomposition -- Status: M

The WP article had most of the information of the PM article and quite a bit more. I merged the remaining bits of the PM article into the WP article and rewrote it in the process. Jitse Niesen 21:38, 19 Mar 2005 (UTC)

• PM: conjugate transpose, id=4382 -- WP: conjugate transpose -- Status: M

The WP article lacked some alternative names and symbols and some basic properties, which are now included. Note that the related article Hermitian adjoint could use some clean-up. Jitse Niesen 15:49, 22 Mar 2005 (UTC)

• PM: corollary of Schur decomposition, id=4413 -- WP: Schur decomposition -- Status: N

The corollary is that any normal matrix is unitarily similar to a diagonal matrix. This is mentioned in Schur decomposition and spectral theorem. The PM article includes a proof which we don't need. Jitse Niesen 15:49, 22 Mar 2005 (UTC)

• PM: covector, id=3719 -- WP: dual space -- Status: A

PM article is two lines and only mentioned the definition. I created a redirect to dual space, where the name covector is mentioned. Jitse Niesen 15:49, 22 Mar 2005 (UTC)

• PM: derivative of homogeneous function, id=6390 -- WP: homogeneous function -- Status: M

PM article states that if f is homogeneous of degree r, then the derivative of f is homogeneous of degree r − 1 (it also includes a proof which we do not need). This should be mentioned in an article on homogeneous functions, which unfortunately does not exist (either that or I could not find it). See also homogeneous (mathematics). Jitse Niesen 17:37, 24 Mar 2005 (UTC)

• PM: diagonal matrix, id=4411 -- WP: diagonal matrix -- Status: M

Two sentences were merged into the WP article, which was largely complete. Jitse Niesen 17:37, 24 Mar 2005 (UTC)

• PM: diagonalization, id=1960 -- WP: diagonalizable matrix -- Status: A

• PM: diagonally dominant matrix, id=4512 -- WP: Diagonally dominant matrix -- Status: N

PM article only defines what diagonally dominant is. I think that is not enough to warrant an article. Jitse Niesen 23:20, 24 Mar 2005 (UTC)

I created the article today. Diagonal dominance has a number of important uses in numerical linear algebra (tho' I only started a list). Could someone add the stub tag? And is there a category for numerical linear algebra? (Or just linear algebra and numerical analysis separately?) Thanks.Lunch 18:50, 23 May 2006 (UTC)[reply]

• PM: eigenvalue (of a matrix), id=4397 -- WP: eigenvalue -- Status: M

Phew ... this was a lot of work since the WP article was in a rather bad state, although it was largely complete. Now, the WP article is completely rewritten and some statements from the PM article are merged in. Jitse Niesen 22:17, 19 Apr 2005 (UTC)

• PM: eigenvalue problem, id=1474 -- WP: various (see below) -- Status:

This is a tough one. The PM article is a wide-ranging discussion. Synopsis of PM article (with corresponding WP articles): definition (eigenvalue, eigenvector), differential eigenvalue problems (differential operator, spectrum of an operator, Sturm-Liouville problem), matrix eigenvalue problems (again eigenvalue), numerical eigenvalue problems (eigenvalue algorithm, QR algorithm). I don't know what to do with this; I think we should merge in some material in the mentioned WP-articles and leave it with that; I already expanded the WP article on the QR algorithm. Jitse Niesen 22:17, 19 Apr 2005 (UTC)

Update: The new article eigenvalue, eigenvector and eigenspace has similar scope as the PM article.

• PM: eigenvalues of orthogonal matrices, id=4240 -- WP: eigenvalue, orthogonal matrix -- Status: N

PM article is a longwinded (IMHO) proof that all eigenvalues of orthogonal matrices have unit modulus; a fact which can be more easily proved from the isometry property. I added a statement to that effect. Jitse Niesen 22:17, 19 Apr 2005 (UTC)

• PM: eigenvector, id=1497 -- WP: eigenvector -- Status: A

• PM: equitable matrices of order 2, id=6675 -- No WP article -- Status: N

PM article contains a trivial proof of the form of 2 × 2 equitable matrices. Jitse Niesen 21:19, 25 Mar 2005 (UTC)

• PM: equitable matrix, id=6674 -- No WP article -- Status: N

A matrix is equitable if it satisfies ${\displaystyle a_{ij}=a_{ik}a_{kj}}$. I doubt this concept is notable enough to be included in WP. Indeed, a Google search turned up only two references to the term "equitable matrix" and I could find only one article in MathSciNet (Parker, Matrices in the market place, Math. Mag. 38:125--128, 1965), describing an application in economics also listed on PM. On the other hand, PM also has a reference to "Elementary matrix theory" by H. Eves. Jitse Niesen 12:37, 4 Apr 2005 (UTC)

• PM: exactly determined, id=1253 -- WP article: system of linear equations -- Status: M

Entire content of PM article: "An exactly determined system of linear equations has precisely as many unknowns as equations and is hence soluble." Jitse Niesen 21:19, 25 Mar 2005 (UTC)

I now mentioned the concept exactly determined at system of linear equations. -- Jitse Niesen (talk) 23:18, 1 September 2005 (UTC)[reply]

• PM: example of non-diagonalizable matrices, id=5686 -- WP: diagonalizable matrix -- Status: M

• PM: free vector space over a set, id=4196 -- WP: free module -- Status: M

PM article explains the construction of a free vector space. As far as I can tell, this construction also works for modules, so I merged it into the WP article on free modules. Jitse Niesen 17:29, 21 Apr 2005 (UTC)

• PM: Hadamard conjecture, id=5524 -- WP: Hadamard matrix -- Status: A

• PM: Hadamard matrix, id=3605 -- WP: Hadamard matrix -- Status: A

In fact, the PM and WP articles are very similar. I only added a URL listed in the PM article as a reference to the WP article and did some copy-editing. Jitse Niesen 17:29, 21 Apr 2005 (UTC)

• PM: Hessenberg matrix, id=1475 -- WP: Hessenberg matrix -- Status: A

• PM: homogeneous function, id=6381 -- WP: homogeneous function -- Status: A

I created the WP article homogeneous function by copying the relevant parts of the disambiguation page homogeneous. Jitse Niesen 00:01, 22 Apr 2005 (UTC)

• PM: If A \in M_n(k) and A is supertriangular then A^n=0, id=4438 -- WP: triangular matrix -- Status: N

PM article is a rather indirect proof of the nilpotency of strictly triangular matrices. Jitse Niesen 23:48, 22 Apr 2005 (UTC)

• PM: invariant subspace, id=1962 -- WP: invariant subspace -- Status: A

• PM: Jacobi determinant, id=1268 -- WP: Jacobian, substitution rule -- Status: A

It would be nice to have an example in substitution rule for the case of multivariate integrals, but I don't like to PM example very much. Jitse Niesen 23:48, 22 Apr 2005 (UTC)

• PM: Jacobi's Theorem, id=4156 -- WP: skew-symmetric matrix -- Status: M

The theorem was mentioned on WP, but not the fact that it is called "Jacobi's theorem". Jitse Niesen 23:48, 22 Apr 2005 (UTC)

• PM: Kronecker product, id=4163 -- WP: Kronecker product -- Status: M

I spun off parts of tensor product and matrix multiplication and added material from the PM article and some more. Jitse Niesen 22:00, 8 Jun 2005 (UTC)

• PM: least squares, id=1195 -- WP: least squares -- Status: M

Unfortunately, the PM article, which is copied from another source, is rather bad. Jitse Niesen 22:00, 8 Jun 2005 (UTC)

I actually did this some time ago, making a terrible mistake, fortunately caught by Michael Hardy. Jitse Niesen (talk) 23:01, 19 July 2005 (UTC)[reply]

• PM: linear algebra, id=2530 -- WP: linear algebra -- Status: A

WP article has a good elementary intro but degenerates after that (e.g., it lists a dozen equivalent statements for "A is invertible"), but the PM article does not treat any advanced parts. In short, WP article needs a serious overhaul. Jitse Niesen (talk) 23:01, 19 July 2005 (UTC)[reply]

• PM: linear least squares, id=1197 -- WP: linear least squares -- Status: A

Jitse Niesen (talk) 23:01, 19 July 2005 (UTC)[reply]

• PM: linear manifold, id=5435 -- WP: affine transformation -- Status: A

A linear manifold is just another name for an affine space, which is treated briefly but adequately at affine transformation. I created a redirect from linear manifold. Jitse Niesen (talk) 23:01, 19 July 2005 (UTC)[reply]

• PM: LU decomposition, id=1227 -- WP: LU decomposition -- Status: A

Jitse Niesen (talk) 13:58, 24 July 2005 (UTC)[reply]

• PM: matrices of special form, id=5670 -- WP: list of matrices -- Status: M

Our list is at least twice as long, but still, PM had two entries which we did not have: Anti-diagonal matrix and Pascal matrix. Jitse Niesen (talk) 13:58, 24 July 2005 (UTC)[reply]

• PM: matrix exponential, id=4162 -- WP: matrix exponential -- Status: A

But I could still add some more to the WP article. -- Jitse Niesen (talk) 22:25, 6 August 2005 (UTC)[reply]

• PM: matrix operations, id=4734 -- WP: matrix (mathematics) -- Status: A

I added the redirect matrix operation → matrix (mathematics). -- Jitse Niesen (talk) 22:25, 6 August 2005 (UTC)[reply]

• PM: nilpotent matrix, id=3520 -- WP: nilpotent matrix -- Status: A

Jitse Niesen (talk) 22:25, 6 August 2005 (UTC)[reply]

• PM: nilpotent transformation, id=1961 -- WP: nilpotent matrix -- Status: M

Almost done merging, only the section on flags needs to be copied. -- Jitse Niesen (talk) 22:25, 6 August 2005 (UTC)[reply]

Now done. -- Jitse Niesen (talk) 22:33, 10 August 2005 (UTC)[reply]

• PM: non-zero vector, id=5450 -- WP: zero vector -- Status: A

Entire content of PM article is "A non-zero vector in a vector space V is a vector that is not equal to the zero vector in V." which seems all there is to say and would end up at VfD here. -- Jitse Niesen (talk) 22:25, 6 August 2005 (UTC)[reply]

I later found out that zero vector is a redirect to null vector (vector space), so non-zero vector also redirects there now. -- Jitse Niesen (talk) 22:33, 10 August 2005 (UTC)[reply]

• PM: normal equations, id=1144 -- WP: linear least squares -- Status: A

• PM: off-diagonal entry, id=4459 -- Not on WP -- Status: N

Entire content of PM article is "Let ${\displaystyle A=(a_{ij})}$ be a square matrix. An element ${\displaystyle a_{ij}}$ is an off-diagonal entry if ${\displaystyle a_{ij}}$ is not on the diagonal, i.e., if i ≠ j." -- Jitse Niesen (talk) 22:33, 10 August 2005 (UTC)[reply]

• PM: orthogonal matrices, id=1176 -- WP: orthogonal matrix -- Status: M

PM had the interesting fact that orthogonal matrices, especially Householder reflections and Givens rotations, are important in numerical analysis. For the rest, the WP article is far more complete. -- Jitse Niesen (talk) 23:18, 1 September 2005 (UTC)[reply]

• PM: orthogonal vectors, id=1285 -- WP: orthogonality -- Status: A

Jitse Niesen (talk) 23:18, 1 September 2005 (UTC)[reply]

• PM: overdetermined, id=1255 -- WP: system of linear equations -- Status: M

I just mentioned the word overdetermined in system of linear equations. -- Jitse Niesen (talk) 23:18, 1 September 2005 (UTC)[reply]

• PM: partitioned matrix, id=4150 -- WP: block matrix -- Status: A

Jitse Niesen (talk) 00:56, 4 September 2005 (UTC)[reply]

• PM: Peetre's inequality, id=4681 -- WP: Peetre's inequality -- Status: C

I copied the inequality, but left out the proof. -- Jitse Niesen (talk) 00:56, 4 September 2005 (UTC)[reply]

• PM: pentadiagonal matrix, id=3927 -- WP: pentadiagonal matrix -- Status: C

Jitse Niesen (talk) 23:10, 6 September 2005 (UTC)[reply]

• PM: principle components analysis, id=1493 -- WP: principal components analysis -- Status: A

WP article is longer and covers all the main points of the PM article. Jitse Niesen (talk) 23:12, 9 September 2005 (UTC)[reply]

• PM: proof of Cayley-Hamilton theorem, id=2802 -- WP: Cayley-Hamilton theorem -- Status: A

WP already has a different proof. Jitse Niesen (talk) 23:12, 9 September 2005 (UTC)[reply]

• PM: proof of Schur decomposition, id=5424 -- WP: Schur decomposition -- Status: M

This is a constructive proof which is used in numerical linear algebra. Jitse Niesen (talk) 17:56, 8 October 2005 (UTC)[reply]

• PM: pseudoinverse, id=1281 -- WP: pseudoinverse -- Status: A

WP article is clearly more complete. Jitse Niesen (talk) 23:12, 9 September 2005 (UTC)[reply]

• PM: Schur decomposition, id=4380 -- WP: Schur decomposition -- Status: A

While the Wikipedia article was similar to the PM article, it did need to be explanded a bit, inter alia with the proof mentioned two items above. Jitse Niesen (talk) 17:56, 8 October 2005 (UTC)[reply]

• PM: singular value decomposition, id=1171 -- WP: singular value decomposition -- Status: M

The PM article notes that the SVD can be used to solve least-squares problems. I copied this statement. Jitse Niesen (talk) 17:56, 8 October 2005 (UTC)[reply]

• PM: skew-symmetric matrix, id=977 -- WP: skew-symmetric matrix -- Status: M

I merged properties 3 and 4 from the PM article into our article. Jitse Niesen (talk) 17:56, 8 October 2005 (UTC)[reply]

• PM: square matrix, id=1472 -- WP: matrix (mathematics)#Square matrices and related definitions -- Status: A

WP article is more complete. Jitse Niesen (talk) 22:48, 5 October 2005 (UTC)[reply]

• PM: strictly upper triangular matrix, id=4381 -- WP: triangular matrix -- Status: A

The PM article only contains the definition, which was already present in the WP article. Just to be sure, I redirected strictly upper triangular matrix and strictly upper triangular matrix to triangular matrix. -- Jitse Niesen (talk) 17:18, 10 October 2005 (UTC)[reply]

• PM: symmetric matrix, id=974 -- WP: symmetric matrix -- Status: A

PM article only contains the definition, but WP article has more. -- Jitse Niesen (talk) 17:18, 10 October 2005 (UTC)[reply]

• PM: theorem for normal triangular matrices, id=4412 -- WP: normal matrix, triangular matrix -- Status: M

The theorem is that every normal triangular matrix is diagonal. I added this to the WP articles, with the proof condensed to one line. -- Jitse Niesen (talk) 17:18, 10 October 2005 (UTC)[reply]

• PM: triangular matrix, id=1483 -- WP: triangular matrix -- Status: M

PM article included the fact that the eigenvalues of a triangular matrix are the diagonal entries; I added this to the WP article which was in all other respects more complete. -- Jitse Niesen (talk) 17:18, 10 October 2005 (UTC)[reply]

• PM: tridiagonal matrix, id=1480 -- WP: tridiagonal matrix -- Status: A

PM only contains the definition, and WP quite a bit more. -- Jitse Niesen (talk) 14:39, 5 November 2005 (UTC)[reply]

• PM: under determined, id=1260 -- WP: system of linear equations -- Status: A

I made redirects from Under determined and Underdetermined to System of linear equations. -- Jitse Niesen (talk) 14:39, 5 November 2005 (UTC)[reply]

• PM: unit triangular matrix, id=4375 -- WP: triangular matrix -- Status: A

I created a redirect from Unit triangular matrix to Triangular matrix, where this concept is mentioned. -- Jitse Niesen (talk) 14:39, 5 November 2005 (UTC)[reply]

• PM: unitary, id=1042 -- WP: unitary space, unitary operator, unitary matrix -- Status: A

PM says that a unitary space is a complex vector space with a distinguished positive definite Hermitian form, which serves as inner product. I am not sure we need this definition here. The other concepts treated by PM are adequately covered in Unitary operator and Unitary matrix. -- Jitse Niesen (talk) 14:39, 5 November 2005 (UTC)[reply]

• PM: vector subspace, id=624 -- WP: vector subspace -- Status: M

PM article mentioned the sum of two subspaces, and the orthogonal complement. I added both to WP. -- Jitse Niesen (talk) 19:42, 5 November 2005 (UTC)[reply]

• PM: zero map, id=5416 -- WP: 0 (number) -- Status: A

Redirect created, analogous to zero function which also redirects to 0 (number). -- Jitse Niesen (talk) 19:42, 5 November 2005 (UTC)[reply]

• PM: zero vector space, id=5414 -- WP: examples of vector spaces -- Status: A

Utter triviality, but I created the redirect nonetheless. -- Jitse Niesen (talk) 19:42, 5 November 2005 (UTC)[reply]

• PM: An example for Schur decomposition, id=7299 -- WP guess: An example for Schur decomposition -- Status:

• PM: derivation of 2D reflection matrix, id=7262 -- WP guess: derivation of 2D reflection matrix -- Status:

• PM: derivation of rotation matrix using polar coordinates, id=7261 -- WP guess: derivation of rotation matrix using polar coordinates -- Status:

• PM: equitable matrix for money exchange, id=6695 -- WP guess: equitable matrix for money exchange -- Status:

• PM: Euler's theorem on homogeneous functions, id=7121 -- WP guess: Euler's theorem on homogeneous functions -- Status:

• PM: example of rotation matrix, id=6902 -- WP guess: example of rotation matrix -- Status:

• PM: Frobenius inequality, id=7360 -- WP guess: Frobenius inequality -- Status:

• PM: If A and B commute so do A and B^{-1}, id=7303 -- WP guess: If A and B commute so do A and B^-1 -- Status:

• PM: Levy-Desplanques theorem, id=7490 -- WP guess: Levy-Desplanques theorem -- Status:

• PM: linear extension, id=7240 -- WP guess: linear extension -- Status:

• PM: Neumann Series, id=7277 -- WP guess: Neumann Series -- Status:

• PM: parameterization of equitable matrices, id=6678 -- WP guess: parameterization of equitable matrices -- Status:

• PM: proof of Rodrigues' rotation formula, id=7221 -- WP guess: proof of Rodrigues' rotation formula -- Status:

• PM: Properties of diagonally dominant matrix, id=7483 -- WP guess: Properties of diagonally dominant matrix -- Status:

• PM: Rodrigues' rotation formula, id=7150 -- WP guess: Rodrigues' rotation formula -- Status:

• PM: rotation matrix, id=6786 -- WP guess: rotation matrix -- Status:

• PM: The characteristic polynomial of a orthogonal matrix is a reciprocal polynomial, id=7452 -- WP guess: The characteristic polynomial of a orthogonal matrix is a reciprocal polynomial -- Status:

• PM: addition and subtraction formulas for sine and cosine, id=9260^new! -- WP guess: addition and subtraction formulas for sine and cosine -- Status:

• PM: antipodal map on S^n is homotopic to the identity if and only if n is odd, id=7753^new! -- WP guess: antipodal map on S^n is homotopic to the identity if and only if n is odd -- Status:

• PM: compound matrix, id=8326^new! -- WP guess: compound matrix -- Status:

• PM: concavity of sine function, id=9289^new! -- WP guess: concavity of sine function -- Status:

• PM: conformal partitioning, id=8127^new! -- WP guess: conformal partitioning -- Status:

• PM: determinant of anti-diagonal matrix, id=7817^new! -- WP guess: determinant of anti-diagonal matrix -- Status:

• PM: example of linear least squares, id=9102^new! -- WP guess: example of linear least squares -- Status:

• PM: generalized eigenvector, id=9754^new! -- WP guess: generalized eigenvector -- Status:

• PM: geometric derivation of addition formulas for sine and cosine, id=9483^new! -- WP guess: geometric derivation of addition formulas for sine and cosine -- Status:

• PM: linear complex structure, id=8392^new! -- WP guess: linear complex structure -- Status:

• PM: linear least squares fit, id=9776^new! -- WP guess: linear least squares fit -- Status:

• PM: point, id=8173^new! -- WP guess: point -- Status:

• PM: proof of determinant lower bound of a strict diagonally dominant matrix, id=9304^new! -- WP guess: proof of determinant lower bound of a strict diagonally dominant matrix -- Status:

• PM: proof of existence and uniqueness of singular value decomposition, id=9434^new! -- WP guess: proof of existence and uniqueness of singular value decomposition -- Status:

• PM: proof that \det e^A = e^{\operatorname{tr}A}, id=7858^new! -- WP guess: proof that \det e^A = e^\operatornametrA -- Status:

• PM: skew Hadamard matrix, id=8314^new! -- WP guess: skew Hadamard matrix -- Status:

• PM: squeezing \mathbb{R}^n, id=9479^new! -- WP guess: squeezing \mathbbR^n -- Status:

• PM: submatrix notation, id=8325^new! -- WP guess: submatrix notation -- Status:

• PM: circulant matrix, id=4640 -- WP: circulant matrix -- Status: A

The PM article does have a more general definition, but I have my doubts about it (what if A = {1,2,3,4} and σ = (1 3)(2 4)? ), and there is no reference. -- Jitse Niesen (talk) 23:22, 22 November 2005 (UTC)[reply]

• PM: derivative of inverse matrix, id=6362 -- WP: invertible matrix -- Status: M

Added the formula to the WP article, which could use some rigorous editing. -- Jitse Niesen (talk) 00:34, 23 November 2005 (UTC)[reply]

• PM: identity matrix, id=1223 -- WP: identity matrix -- Status: M

Merged some (rather trivial) information about eigenvalues and eigenvectors. -- Jitse Niesen (talk) 00:34, 23 November 2005 (UTC)[reply]

• PM: matrix, id=2464 -- WP: matrix (mathematics) -- Status: A

Lots of information in both PM and WP article. Articles clearly differ in what information is listed, with WP one being clearly more low-level, but both articles are essentially fine. -- Jitse Niesen (talk) 21:28, 29 November 2005 (UTC)[reply]

• PM: zero matrix, id=5789 -- WP: zero matrix -- Status: A

PM article has some more things, but it's all trivial. -- Jitse Niesen (talk) 21:28, 29 November 2005 (UTC)[reply]

• PM: derivative of matrix, id=6713 -- WP guess: derivative of matrix -- Status:

• PM: isomorphism of rings of real and complex matrices, id=8403^new! -- WP guess: isomorphism of rings of real and complex matrices -- Status:

• PM: basis, id=1041 -- WP: basis (linear algebra) -- Status: A

Jitse Niesen (talk) 21:28, 29 November 2005 (UTC)[reply]

• PM: complementary subspace, id=3209 -- WP: direct sum of modules -- Status: M

I mentioned the term "complementary subspace" in Direct sum of modules. It might be good to make Direct sum of vector spaces in a separate article, because the module stuff is a bit more abstract. -- Jitse Niesen (talk) 15:27, 18 December 2005 (UTC)[reply]

• PM: countable basis, id=1434 -- WP: Schauder basis -- Status: C

This definition was hinted at in various places, but I think it can use an article on its own. -- Jitse Niesen (talk) 15:27, 18 December 2005 (UTC)[reply]

• PM: diagonalization of quadratic form, id=6490 -- WP: none -- Status: N

I don't think we need an article for this; see diagonalizable matrix and quadratic form. -- Jitse Niesen (talk) 01:27, 20 December 2005 (UTC)[reply]

• PM: dimension (vector space), id=2993 -- WP: dimension (vector space) -- Status: A

WP article is actually more complete. -- Jitse Niesen (talk) 01:27, 20 December 2005 (UTC)[reply]

• PM: direct sum of Hermitian and skew-Hermitian matrices, id=4238 -- WP: Hermitian matrix, skew-Hermitian matrix -- Status: A

PM article says basically that every matrix can be written as a sum of a Hermitian and a skew-Hermitian matrix, which is already mentioned in the two WP articles. I don't think we need to make more of it . -- Jitse Niesen (talk) 01:27, 20 December 2005 (UTC)[reply]

• PM: Euclidean vector space, id=5743 -- WP: Euclidean space -- Status: A

WP article is perfectly adequate. -- Jitse Niesen (talk) 01:27, 20 December 2005 (UTC)[reply]

• PM: every vector space has a basis, id=3494 -- WP: basis (linear algebra) -- Status: A

PM includes a proof, using Zorn's lemma, but I don't think we need that. -- Jitse Niesen (talk) 01:27, 20 December 2005 (UTC)[reply]

I am here[edit]

• PM: fixed-point subspace, id=4435 -- WP guess: fixed-point subspace -- Status:

• PM: flag, id=2994 -- WP guess: flag -- Status:

• PM: frame, id=2931 -- WP guess: frame -- Status:

• PM: Hamel function, id=5703 -- WP guess: Hamel function -- Status:

• PM: linear combination, id=805 -- WP guess: linear combination -- Status:

• PM: linear independence, id=848 -- WP guess: linear independence -- Status:

• PM: list vector, id=3200 -- WP guess: list vector -- Status:

• PM: nullity, id=2237 -- WP: nullity -- Status: A

Actually, I just made the WP article redirect to null space, which has all the info on PlanetMath and more. Oleg Alexandrov 17:57, 16 May 2005 (UTC)[reply]

• PM: orthonormal basis, id=5346 -- WP guess: orthonormal basis -- Status:

• PM: physical vector, id=3201 -- WP guess: physical vector -- Status:

• PM: proof of rank-nullity theorem, id=2361 -- WP guess: proof of rank-nullity theorem -- Status:

• PM: proof of Riesz' Lemma, id=6627 -- WP guess: proof of Riesz' Lemma -- Status:

• PM: rank, id=2236 -- WP guess: rank -- Status:

• PM: rank-nullity theorem, id=2238 -- WP guess: rank-nullity theorem -- Status:

• PM: Riesz' Lemma, id=6626 -- WP guess: Riesz' Lemma -- Status:

• PM: scalar, id=870 -- WP guess: scalar -- Status:

• PM: similar matrix, id=2278 -- WP guess: similar matrix -- Status:

• PM: span, id=806 -- WP guess: span -- Status:

• PM: standard basis, id=5806 -- WP guess: standard basis -- Status:

• PM: Sylvester's law, id=3356 -- WP guess: Sylvester's law -- Status:

• PM: theorem for the direct sum of finite dimensional vector spaces, id=4233 -- WP guess: theorem for the direct sum of finite dimensional vector spaces -- Status:

• PM: unit vector, id=865 -- WP guess: unit vector -- Status:

• PM: vector, id=2909 -- WP guess: vector -- Status:

• PM: absorbing set, id=7287 -- WP guess: absorbing set -- Status:

• PM: annihilator of vector subspace, id=7280 -- WP guess: annihilator of vector subspace -- Status:

• PM: closure of a vector subspace in a normed space is a vector subspace, id=6709 -- WP guess: closure of a vector subspace in a normed space is a vector subspace -- Status:

• PM: closure of a vector subspace is a vector subspace, id=6710 -- WP guess: closure of a vector subspace is a vector subspace -- Status:

• PM: complexification of vector space, id=7249 -- WP guess: complexification of vector space -- Status:

• PM: every finite dimensional proper subspace of a normed space is nowhere dense, id=6687 -- WP guess: every finite dimensional proper subspace of a normed space is nowhere dense -- Status:

• PM: every finite dimensional subspace of a normed space is closed, id=6686 -- WP guess: every finite dimensional subspace of a normed space is closed -- Status:

• PM: axiomatization of dependence, id=8621^new! -- WP guess: axiomatization of dependence -- Status:

• PM: blade, id=7994^new! -- WP guess: blade -- Status:

• PM: determining rank of matrix, id=9674^new! -- WP guess: determining rank of matrix -- Status:

• PM: dimension formulae for vector spaces, id=8701^new! -- WP guess: dimension formulae for vector spaces -- Status:

• PM: proof of the dimension theorem for subspaces, id=8782^new! -- WP guess: proof of the dimension theorem for subspaces -- Status:

• PM: rank-nullity theorem, id=8790^new! -- WP guess: rank-nullity theorem -- Status:

• PM: symmetric tensor, id=8369^new! -- WP guess: symmetric tensor -- Status:

• PM: AB and BA are almost isospectral, id=6386 -- WP guess: AB and BA are almost isospectral -- Status:

• PM: \operatorname{ker} L=\{0\} if and only if L is injective, id=6384 -- WP guess: \operatornameker L=\0\ if and only if L is injective -- Status:

• PM: adjoint endomorphism, id=2718 -- WP guess: adjoint endomorphism -- Status:

• PM: admissibility, id=5448 -- WP guess: admissibility -- Status:

• PM: affine transformation, id=6413 -- WP guess: affine transformation -- Status:

• PM: conductor of a vector, id=5455 -- WP guess: conductor of a vector -- Status:

• PM: cyclic decomposition theorem, id=5449 -- WP guess: cyclic decomposition theorem -- Status:

• PM: cyclic subspace, id=5447 -- WP guess: cyclic subspace -- Status:

• PM: cyclic vector theorem, id=5680 -- WP guess: cyclic vector theorem -- Status:

• PM: dimension theorem for symplectic complement (proof), id=4149 -- WP guess: dimension theorem for symplectic complement (proof) -- Status:

• PM: double dual embedding, id=2916 -- WP guess: double dual embedding -- Status:

• PM: dual homomorphism, id=2717 -- WP guess: dual homomorphism -- Status:

• PM: dual homomorphism of the derivative, id=2842 -- WP guess: dual homomorphism of the derivative -- Status:

• PM: equivalently oriented bases, id=4928 -- WP guess: equivalently oriented bases -- Status:

• PM: I-AB is invertible if and only if I-BA is invertible, id=6383 -- WP guess: I-AB is invertible if and only if I-BA is invertible -- Status:

• PM: image of a linear transformation, id=4530 -- WP guess: image of a linear transformation -- Status:

• PM: invertible linear transformation, id=1935 -- WP guess: invertible linear transformation -- Status:

• PM: isospectral, id=6387 -- WP guess: isospectral -- Status:

• PM: kernel of a linear transformation, id=807 -- WP guess: kernel of a linear transformation -- Status:

• PM: linear isomorphism, id=6186 -- WP guess: linear isomorphism -- Status:

• PM: linear transformation, id=697 -- WP guess: linear transformation -- Status:

• PM: minimal polynomial (endomorphism), id=3615 -- WP guess: minimal polynomial (endomorphism) -- Status:

• PM: necessary and sufficient condition for diagonalizability, id=5711 -- WP guess: necessary and sufficient condition for diagonalizability -- Status:

• PM: primary decomposition theorem, id=5707 -- WP guess: primary decomposition theorem -- Status:

• PM: proof of cyclic vector theorem, id=5690 -- WP guess: proof of cyclic vector theorem -- Status:

• PM: proof of necessary and sufficient condition for diagonalizability, id=5712 -- WP guess: proof of necessary and sufficient condition for diagonalizability -- Status:

• PM: self-dual, id=2719 -- WP guess: self-dual -- Status:

• PM: symplectic complement, id=4139 -- WP guess: symplectic complement -- Status:

• PM: theorem about cyclic subspaces, id=5702 -- WP guess: theorem about cyclic subspaces -- Status:

• PM: trace, id=1844 -- WP guess: trace -- Status:

• PM: unimodular matrix, id=6662 -- WP guess: unimodular matrix -- Status:

• PM: decomposition of orthogonal operators as rotations and reflections, id=7242 -- WP guess: decomposition of orthogonal operators as rotations and reflections -- Status:

• PM: dimension of the special orthogonal group, id=7245 -- WP guess: dimension of the special orthogonal group -- Status:

• PM: linear transformation is continuous if its domain is finite dimensional, id=7098 -- WP guess: linear transformation is continuous if its domain is finite dimensional -- Status:

• PM: AB is conjugate to BA, id=8045^new! -- WP guess: AB is conjugate to BA -- Status:

• PM: additive function, id=8409^new! -- WP guess: additive function -- Status:

• PM: commuting matrices, id=7906^new! -- WP guess: commuting matrices -- Status:

• PM: determining rotations and reflections in \mathbb{R}^2, id=9572^new! -- WP guess: determining rotations and reflections in \mathbbR^2 -- Status:

• PM: Euclidean transformation, id=8021^new! -- WP guess: Euclidean transformation -- Status:

• PM: permutation operator, id=8368^new! -- WP guess: permutation operator -- Status:

• PM: semilinear transformation, id=7835^new! -- WP guess: semilinear transformation -- Status:

• PM: strain transformation, id=9804^new! -- WP guess: strain transformation -- Status:

• PM: symmetrizer, id=8370^new! -- WP guess: symmetrizer -- Status:

• PM: symmetry, id=9530^new! -- WP guess: symmetry -- Status:

• PM: there exist additive functions which are not linear, id=8417^new! -- WP guess: there exist additive functions which are not linear -- Status:

• PM: finite-dimensional linear problem, id=2502 -- WP guess: finite-dimensional linear problem -- Status:

• PM: Gaussian elimination, id=1238 -- WP guess: Gaussian elimination -- Status:

• PM: homogeneous linear problem, id=2500 -- WP guess: homogeneous linear problem -- Status:

• PM: linear problem, id=2496 -- WP guess: linear problem -- Status:

• PM: reduced row echelon form, id=1617 -- WP guess: reduced row echelon form -- Status:

• PM: row echelon form, id=1616 -- WP guess: row echelon form -- Status:

• PM: under-determined polynomial interpolation, id=2840 -- WP guess: under-determined polynomial interpolation -- Status:

• PM: conjugate gradient algorithm, id=6685 -- WP guess: conjugate gradient algorithm -- Status:

• PM: extended discussion of the conjugate gradient method, id=9859^new! -- WP guess: extended discussion of the conjugate gradient method -- Status:

• PM: general solution of linear differential equation, id=8722^new! -- WP guess: general solution of linear differential equation -- Status:

• PM: generalized inverse, id=6065 -- WP guess: generalized inverse -- Status:

• PM: Hilbert matrix, id=3479 -- WP: Hilbert matrix -- Status:

• PM: matrix adjoint, id=3604 -- WP guess: matrix adjoint -- Status:

• PM: matrix inverse, id=3483 -- WP guess: matrix inverse -- Status:

• PM: Moore-Penrose generalized inverse, id=6067 -- WP: Moore-Penrose generalized inverse -- Status:

• PM: Pascal matrix, id=4445 -- WP guess: Pascal matrix -- Status:

• PM: Proof of matrix inverse calculation by Gaussian elimination, id=5700 -- WP guess: Proof of matrix inverse calculation by Gaussian elimination -- Status:

• PM: Toeplitz matrix, id=3482 -- WP: Toeplitz matrix -- Status:

• PM: invertible matrices are dense in set of nxn matrices, id=7579 -- WP guess: invertible matrices are dense in set of nxn matrices -- Status:

• PM: group inverse, id=9306^new! -- WP guess: group inverse -- Status:

• PM: inverse of matrix with small-rank adjustment, id=7724^new! -- WP guess: inverse of matrix with small-rank adjustment -- Status:

• PM: proof of inverse of matrix with small-rank adjustment, id=7726^new! -- WP guess: proof of inverse of matrix with small-rank adjustment -- Status:

• PM: matrix condition number, id=3480 -- WP: condition number -- Status:

• PM: singular, id=758 -- WP guess: singular -- Status:

• PM: matrix condition number is greater or equal to 1, id=7324 -- WP guess: matrix condition number is greater or equal to 1 -- Status:

• PM: Cauchy-Binet formula, id=5523 -- WP guess: Cauchy-Binet formula -- Status:

• PM: Cayley-Hamilton theorem, id=1837 -- WP guess: Cayley-Hamilton theorem -- Status:

• PM: cofactor expansion, id=978 -- WP guess: cofactor expansion -- Status:

• PM: Cramer's rule, id=626 -- WP guess: Cramer's rule -- Status:

• PM: determinant, id=2797 -- WP guess: determinant -- Status:

• PM: determinant as a multilinear mapping, id=3595 -- WP guess: determinant as a multilinear mapping -- Status:

• PM: determinant condition for a sequence of vectors, id=6116 -- WP guess: determinant condition for a sequence of vectors -- Status:

• PM: determinants of some matrices of special form, id=5417 -- WP guess: determinants of some matrices of special form -- Status:

• PM: example of Cramer's rule, id=3169 -- WP guess: example of Cramer's rule -- Status:

• PM: Hadamard product, id=5706 -- WP guess: Hadamard product -- Status:

• PM: minor (of a matrix), id=5522 -- WP guess: minor (of a matrix) -- Status:

• PM: n'th derivative of a determinant, id=6044 -- WP guess: n'th derivative of a determinant -- Status:

• PM: Pfaffian, id=5857 -- WP guess: Pfaffian -- Status:

• PM: proof of cofactor expansion, id=3896 -- WP guess: proof of cofactor expansion -- Status:

• PM: proof of Cramer's rule, id=3462 -- WP guess: proof of Cramer's rule -- Status:

• PM: proof of the determinant condition for a sequence of vectors, id=6117 -- WP guess: proof of the determinant condition for a sequence of vectors -- Status:

• PM: resolvent matrix, id=4235 -- WP guess: resolvent matrix -- Status:

• PM: block determinants, id=7279 -- WP guess: block determinants -- Status:

• PM: Determinant inequalities, id=7489 -- WP guess: Determinant inequalities -- Status:

• PM: matrix resolvent properties, id=7468 -- WP guess: matrix resolvent properties -- Status:

• PM: proof of block determinants, id=7315 -- WP guess: proof of block determinants -- Status:

• PM: proof of Cayley-Hamilton theorem by formal substitutions, id=7308 -- WP guess: proof of Cayley-Hamilton theorem by formal substitutions -- Status:

• PM: Schur complement, id=7302 -- WP guess: Schur complement -- Status:

• PM: Van der Waerden's permanent conjecture, id=6935 -- WP guess: Van der Waerden's permanent conjecture -- Status:

• PM: basis-free definition of determinant, id=9109^new! -- WP guess: basis-free definition of determinant -- Status:

• PM: determinant in terms of traces of powers, id=7964^new! -- WP guess: determinant in terms of traces of powers -- Status:

• PM: lecture notes on the Cayley-Hamilton theorem, id=9096^new! -- WP guess: lecture notes on the Cayley-Hamilton theorem -- Status:

• PM: proof of Cayley-Hamilton theorem in a commutative ring, id=8106^new! -- WP guess: proof of Cayley-Hamilton theorem in a commutative ring -- Status:

• PM: characteristic equation, id=1838 -- WP guess: characteristic equation -- Status:

• PM: eigenvalue, id=1496 -- WP guess: eigenvalue -- Status:

• PM: eigenvalue, id=5106 -- WP guess: eigenvalue -- Status:

• PM: Jordan canonical form theorem, id=3364 -- WP guess: Jordan canonical form theorem -- Status:

• PM: Lagrange multiplier method, id=2352 -- WP guess: Lagrange multiplier method -- Status:

• PM: Perron-Frobenius theorem, id=3812 -- WP guess: Perron-Frobenius theorem -- Status:

• PM: proof of calculus theorem used in the Lagrange method, id=4073 -- WP guess: proof of calculus theorem used in the Lagrange method -- Status:

• PM: proof of Jordan canonical form theorem, id=5709 -- WP guess: proof of Jordan canonical form theorem -- Status:

• PM: spectral theorem, id=3072 -- WP guess: spectral theorem -- Status:

• PM: algebraic and geometric multiplicity do not coincide, id=7037 -- WP guess: algebraic and geometric multiplicity do not coincide -- Status:

• PM: common eigenvector of a diagonal element cross-section, id=7378 -- WP guess: common eigenvector of a diagonal element cross-section -- Status:

• PM: invariance of eigenvalues, id=7087 -- WP guess: invariance of eigenvalues -- Status:

• PM: proof of Lagrange multiplier method, id=7263 -- WP guess: proof of Lagrange multiplier method -- Status:

• PM: multiplicity of eigenvalue, id=7036 -- WP guess: multiplicity of eigenvalue -- Status:

• PM: proof of Wielandt-Hoffman theorem, id=6682 -- WP guess: proof of Wielandt-Hoffman theorem -- Status:

• PM: Rayleigh-Ritz theorem, id=7546 -- WP guess: Rayleigh-Ritz theorem -- Status:

• PM: spectrum of A-\mu I, id=7444 -- WP guess: spectrum of A-\mu I -- Status:

• PM: Wielandt-Hoffman theorem, id=6680 -- WP guess: Wielandt-Hoffman theorem -- Status:

• PM: eigenspace, id=9752^new! -- WP guess: eigenspace -- Status:

• PM: finding eigenvalues, id=7873^new! -- WP guess: finding eigenvalues -- Status:

• PM: generalized eigenspace, id=9761^new! -- WP guess: generalized eigenspace -- Status:

• PM: companion matrix, id=3773 -- WP guess: companion matrix -- Status:

• PM: eigenvalues of an involution, id=4301 -- WP guess: eigenvalues of an involution -- Status:

• PM: example of linear involution, id=5678 -- WP guess: example of linear involution -- Status:

• PM: linear involution, id=4197 -- WP guess: linear involution -- Status:

• PM: normal matrix, id=4358 -- WP guess: normal matrix -- Status:

• PM: projection, id=3208 -- WP: projection (linear algebra) -- Status:

• PM: proof of theorem for normal matrices, id=7530 -- WP guess: proof of theorem for normal matrices -- Status:

• PM: simultaneous block-diagonalization of upper triangular commuting matrices, id=7353 -- WP guess: simultaneous block-diagonalization of upper triangular commuting matrices -- Status:

• PM: simultaneous triangularisation of commuting matrices over any field, id=7352 -- WP guess: simultaneous triangularisation of commuting matrices over any field -- Status:

• PM: simultaneous upper triangular block-diagonalization of commuting matrices, id=7350 -- WP guess: simultaneous upper triangular block-diagonalization of commuting matrices -- Status:

• PM: theorem for normal matrices, id=7346 -- WP guess: theorem for normal matrices -- Status:

• PM: diagonalizable, id=8056^new! -- WP guess: diagonalizable -- Status:

• PM: matrix factorization, id=5699 -- WP guess: matrix factorization -- Status:

• PM: QR decomposition, id=1207 -- WP guess: QR decomposition -- Status:

• PM: commuting matrices are simultaneously triangularizable, id=7294 -- WP guess: commuting matrices are simultaneously triangularizable -- Status:

• PM: commuting normal matrices are simultaneously diagonalizable, id=7295 -- WP guess: commuting normal matrices are simultaneously diagonalizable -- Status:

• PM: proof that commuting matrices are simultaneously triangularizable, id=7301 -- WP guess: proof that commuting matrices are simultaneously triangularizable -- Status:

• PM: ideals in matrix algebras, id=4767 -- WP guess: ideals in matrix algebras -- Status:

• PM: characteristic matrix of diagonal element cross-section, id=7354 -- WP guess: characteristic matrix of diagonal element cross-section -- Status:

• PM: monomial matrix, id=7050 -- WP guess: monomial matrix -- Status:

• PM: elementary matrix, id=8985^new! -- WP guess: elementary matrix -- Status:

• PM: proportions of invertible matrices, id=7973^new! -- WP guess: proportions of invertible matrices -- Status:

• PM: permutation matrix, id=1232 -- WP guess: permutation matrix -- Status:

• PM: example of permutation matrix, id=6771 -- WP guess: example of permutation matrix -- Status:

• PM: Farkas lemma, id=4508 -- WP guess: Farkas lemma -- Status:

• PM: proof of Farkas lemma, id=5649 -- WP guess: proof of Farkas lemma -- Status:

• PM: generalized Farkas lemma, id=9705^new! -- WP guess: generalized Farkas lemma -- Status:

• PM: Bauer-Fike Theorem, id=6465 -- WP guess: Bauer-Fike Theorem -- Status:

• PM: Gershgorin's circle theorem, id=3709 -- WP guess: Gershgorin's circle theorem -- Status:

• PM: Gershgorin's circle theorem result, id=4536 -- WP guess: Gershgorin's circle theorem result -- Status:

• PM: Shur's inequality, id=4410 -- WP guess: Shur's inequality -- Status:

• PM: Brauer's ovals theorem, id=7503 -- WP guess: Brauer's ovals theorem -- Status:

• PM: Minimal Gershgorin set, id=7514 -- WP guess: Minimal Gershgorin set -- Status:

• PM: Ostrowski theorem, id=7528 -- WP guess: Ostrowski theorem -- Status:

• PM: proof of Bauer-Fike theorem, id=7450 -- WP guess: proof of Bauer-Fike theorem -- Status:

• PM: proof of Shur's inequality, id=7501 -- WP guess: proof of Shur's inequality -- Status:

• PM: proof of Weyl's inequality, id=7464 -- WP guess: proof of Weyl's inequality -- Status:

• PM: Weyl's inequality, id=7463 -- WP guess: Weyl's inequality -- Status:

• PM: Hadamard's inequality, id=6084 -- WP guess: Hadamard's inequality -- Status:

• PM: proof of Hadamard's inequality, id=7541 -- WP guess: proof of Hadamard's inequality -- Status:

• PM: copositive matrix, id=6197 -- WP: copositive matrix -- Status: A Lunch 00:05, 7 January 2007 (UTC)[reply]

• PM: Euclidean distance matrix, id=6200 -- WP guess: Euclidean distance matrix -- Status:

• PM: generalized Vandermonde matrix is positive definite, id=6124 -- WP guess: generalized Vandermonde matrix is positive definite -- Status:

• PM: negative definite, id=1968 -- WP guess: negative definite -- Status:

• PM: negative semidefinite, id=1970 -- WP guess: negative semidefinite -- Status:

• PM: positive definite, id=1967 -- WP guess: positive definite -- Status:

• PM: positive semidefinite, id=1969 -- WP guess: positive semidefinite -- Status:

• PM: primitive matrix, id=3809 -- WP guess: primitive matrix -- Status:

• PM: reducible matrix, id=3810 -- WP guess: reducible matrix -- Status:

• PM: square root of positive definite matrix, id=7067 -- WP guess: square root of positive definite matrix -- Status:

• PM: generalized Vandermonde matrix, id=9759^new! -- WP guess: generalized Vandermonde matrix -- Status:

• PM: totally positive matrix, id=9758^new! -- WP guess: totally positive matrix -- Status:

• PM: Birkoff-von Neumann theorem, id=3610 -- WP guess: Birkoff-von Neumann theorem -- Status:

• PM: proof of Birkoff-von Neumann theorem, id=3611 -- WP guess: proof of Birkoff-von Neumann theorem -- Status:

• PM: stochastic matrix, id=2885 -- WP guess: stochastic matrix -- Status:

• PM: there are no non-square doubly stochastic matrices, id=6938 -- WP guess: there are no non-square doubly stochastic matrices -- Status:

• PM: eigenvalues of stochastic matrix, id=8421^new! -- WP guess: eigenvalues of stochastic matrix -- Status:

• PM: Google matrix, id=9302^new! -- WP guess: Google matrix -- Status:

• PM: random vector, id=5974 -- WP guess: random vector -- Status:

• PM: Cauchy matrix, id=6050 -- WP guess: Cauchy matrix -- Status:

• PM: Cayley's parameterization of orthogonal matrices, id=6535 -- WP guess: Cayley's parameterization of orthogonal matrices -- Status:

• PM: condition of orthogonality, id=6455 -- WP guess: condition of orthogonality -- Status:

• PM: determinant of the Vandermonde matrix, id=6120 -- WP guess: determinant of the Vandermonde matrix -- Status:

• PM: eigenvalues of a Hermitian matrix are real, id=5879 -- WP guess: eigenvalues of a Hermitian matrix are real -- Status:

• PM: Engel's theorem, id=2991 -- WP guess: Engel's theorem -- Status:

• PM: Givens rotation, id=1215 -- WP guess: Givens rotation -- Status:

• PM: Hermitian matrix, id=1505 -- WP guess: Hermitian matrix -- Status:

• PM: Householder transformation, id=1210 -- WP guess: Householder transformation -- Status:

• PM: skew-Hermitian matrix, id=4231 -- WP guess: skew-Hermitian matrix -- Status:

• PM: transpose, id=975 -- WP guess: transpose -- Status:

• PM: Vandermonde matrix, id=3481 -- WP guess: Vandermonde matrix -- Status:

• PM: M-matrix, id=7257 -- WP guess: M-matrix -- Status:

• PM: stable matrix, id=7312 -- WP guess: stable matrix -- Status:

• PM: Z-matrix, id=7255 -- WP guess: Z-matrix -- Status:

• PM: fully indecomposable matrix, id=7999^new! -- WP guess: fully indecomposable matrix -- Status:

• PM: proof of determinant of the Vandermonde matrix, id=7699^new! -- WP guess: proof of determinant of the Vandermonde matrix -- Status:

• PM: Frobenius matrix norm, id=109 -- WP guess: Frobenius matrix norm -- Status:

• PM: matrix p-norm, id=108 -- WP guess: matrix p-norm -- Status:

• PM: self consistent matrix norm, id=4310 -- WP guess: self consistent matrix norm -- Status:

• PM: anti-symmetric, id=2826 -- WP guess: anti-symmetric -- Status:

• PM: Cauchy-Schwarz inequality, id=1628 -- WP guess: Cauchy-Schwarz inequality -- Status:

• PM: dot product, id=239 -- WP guess: dot product -- Status:

• PM: every orthonormal set is linearly independent, id=4169 -- WP guess: every orthonormal set is linearly independent -- Status:

• PM: inner product space, id=1613 -- WP guess: inner product space -- Status:

• PM: linearization, id=6580 -- WP guess: linearization -- Status:

• PM: proof of Cauchy-Schwarz inequality, id=2827 -- WP guess: proof of Cauchy-Schwarz inequality -- Status:

• PM: proof of Cauchy-Schwarz inequality for real numbers, id=6635 -- WP guess: proof of Cauchy-Schwarz inequality for real numbers -- Status:

• PM: quadratic form, id=1940 -- WP guess: quadratic form -- Status:

• PM: skew-symmetric bilinear form, id=3626 -- WP guess: skew-symmetric bilinear form -- Status:

• PM: Euclidean vector space, id=7571 -- WP guess: Euclidean vector space -- Status:

• PM: hermitian form over a division ring, id=7626 -- WP guess: hermitian form over a division ring -- Status:

• PM: invariant scalar product, id=7364 -- WP guess: invariant scalar product -- Status:

• PM: quadratic space, id=6827 -- WP guess: quadratic space -- Status:

• PM: unimodular, id=7553 -- WP guess: unimodular -- Status:

• PM: alternating form, id=7649^new! -- WP guess: alternating form -- Status:

• PM: Gram determinant, id=7637^new! -- WP guess: Gram determinant -- Status:

• PM: hyperbolic pairs and basis, id=7833^new! -- WP guess: hyperbolic pairs and basis -- Status:

• PM: left / right perpendicular, id=8315^new! -- WP guess: left / right perpendicular -- Status:

• PM: orthogonal direct sum, id=7645^new! -- WP guess: orthogonal direct sum -- Status:

• PM: reflexive non-degenerate sesquilinear, id=7834^new! -- WP guess: reflexive non-degenerate sesquilinear -- Status:

• PM: geometric algebra, id=3770 -- WP guess: geometric algebra -- Status:

• PM: spinor, id=9366^new! -- WP guess: spinor -- Status:

• PM: twistor, id=9385^new! -- WP guess: twistor -- Status:

• PM: basic tensor, id=2953 -- WP guess: basic tensor -- Status:

• PM: Einstein summation convention, id=4130 -- WP guess: Einstein summation convention -- Status:

• PM: multi-linear, id=2796 -- WP guess: multi-linear -- Status:

• PM: outer multiplication, id=2951 -- WP guess: outer multiplication -- Status:

• PM: tensor, id=3112 -- WP guess: tensor -- Status:

• PM: tensor algebra, id=3776 -- WP guess: tensor algebra -- Status:

• PM: tensor array, id=2949 -- WP guess: tensor array -- Status:

• PM: tensor product (vector spaces), id=2087 -- WP guess: tensor product (vector spaces) -- Status:

• PM: tensor transformations, id=2952 -- WP guess: tensor transformations -- Status:

• PM: coboundary definition of exterior derivative, id=7564 -- WP guess: coboundary definition of exterior derivative -- Status:

• PM: simple tensor, id=7282 -- WP guess: simple tensor -- Status:

• PM: tensor product basis, id=7254 -- WP guess: tensor product basis -- Status:

• PM: second order tensor: symmetric and skew-symmetric parts, id=7847^new! -- WP guess: second order tensor: symmetric and skew-symmetric parts -- Status:

• PM: bac-cab rule, id=5436 -- WP guess: bac-cab rule -- Status:

• PM: cross product, id=867 -- WP guess: cross product -- Status:

• PM: euclidean vector, id=860 -- WP guess: euclidean vector -- Status:

• PM: mutual positions of vectors, id=6178 -- WP guess: mutual positions of vectors -- Status:

• PM: rotational invariance of cross product, id=4171 -- WP guess: rotational invariance of cross product -- Status:

• PM: tensor density, id=6608 -- WP guess: tensor density -- Status:

• PM: triple cross product, id=5714 -- WP guess: triple cross product -- Status:

• PM: vector product in general vector spaces, id=6089 -- WP guess: vector product in general vector spaces -- Status:

• PM: distance of non-parallel lines, id=7304 -- WP guess: distance of non-parallel lines -- Status:

• PM: dyad product, id=7293 -- WP guess: dyad product -- Status:

• PM: position vector, id=7265 -- WP guess: position vector -- Status:

• PM: right-handed system of vectors, id=6704 -- WP guess: right-handed system of vectors -- Status:

• PM: scalar factor transfer rules, id=7292 -- WP guess: scalar factor transfer rules -- Status:

• PM: solid angle, id=7266 -- WP guess: solid angle -- Status:

• PM: direction cosines, id=9615^new! -- WP guess: direction cosines -- Status:

• PM: contraction, id=4261 -- WP guess: contraction -- Status:

• PM: exterior algebra, id=2819 -- WP guess: exterior algebra -- Status:

• PM: visualizations of exterior forms, id=7323 -- WP guess: visualizations of exterior forms -- Status:

• PM: symmetric algebra, id=7730^new! -- WP guess: symmetric algebra -- Status:

• PM: Matrix Logarithm, id=7394 -- WP guess: Matrix Logarithm -- Status:

• PM: perspective drawing, id=7628 -- WP guess: perspective drawing -- Status:

• PM: dual space, id=1739 -- WP guess: dual space -- Status:

• PM: example of trace of a matrix, id=4160 -- WP guess: example of trace of a matrix -- Status:

• PM: generalized Kronecker delta symbol, id=4119 -- WP guess: generalized Kronecker delta symbol -- Status:

• PM: Iwasawa decomposition, id=6088 -- WP guess: Iwasawa decomposition -- Status:

• PM: Kronecker delta, id=1221 -- WP guess: Kronecker delta -- Status:

• PM: linear functional, id=1608 -- WP guess: linear functional -- Status:

• PM: modules are a generalization of vector spaces, id=4288 -- WP guess: modules are a generalization of vector spaces -- Status:

• PM: proof of properties of trace of a matrix, id=4396 -- WP guess: proof of properties of trace of a matrix -- Status:

• PM: quasipositive matrix, id=3811 -- WP guess: quasipositive matrix -- Status:

• PM: trace of a matrix, id=930 -- WP guess: trace of a matrix -- Status:

• PM: an application of Z-matrix in a mobile radio system, id=8339^new! -- WP guess: an application of Z-matrix in a mobile radio system -- Status:

• PM: duality with respect to a non-degenerate bilinear form, id=8528^new! -- WP guess: duality with respect to a non-degenerate bilinear form -- Status:

• PM: spanning sets of dual space, id=9634^new! -- WP guess: spanning sets of dual space -- Status: