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2. Transformation matrix - Wikipedia

   en.wikipedia.org/wiki/Transformation_matrix

   In linear algebra, linear transformations can be represented by matrices.If is a linear transformation mapping to and is a column vector with entries, then there exists an matrix , called the transformation matrix of , [1] such that: = Note that has rows and columns, whereas the transformation is from to .

3. Matrix similarity - Wikipedia

   en.wikipedia.org/wiki/Matrix_similarity

   A transformation A ↦ P −1 AP is called a similarity transformation or conjugation of the matrix A. In the general linear group , similarity is therefore the same as conjugacy , and similar matrices are also called conjugate ; however, in a given subgroup H of the general linear group, the notion of conjugacy may be more restrictive than ...

4. Matrix equivalence - Wikipedia

   en.wikipedia.org/wiki/Matrix_equivalence

   In linear algebra, two rectangular m-by-n matrices A and B are called equivalent if = for some invertible n-by-n matrix P and some invertible m-by-m matrix Q.Equivalent matrices represent the same linear transformation V → W under two different choices of a pair of bases of V and W, with P and Q being the change of basis matrices in V and W respectively.

5. File:Linear transformation.pdf - Wikipedia

   en.wikipedia.org/wiki/File:Linear_transformation.pdf

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6. Vectorization (mathematics) - Wikipedia

   en.wikipedia.org/wiki/Vectorization_(mathematics)

   The vectorization is frequently used together with the Kronecker product to express matrix multiplication as a linear transformation on matrices. In particular, vec ⁡ ( A B C ) = ( C T ⊗ A ) vec ⁡ ( B ) {\displaystyle \operatorname {vec} (ABC)=(C^{\mathrm {T} }\otimes A)\operatorname {vec} (B)} for matrices A , B , and C of dimensions k ...

7. Adjoint representation - Wikipedia

   en.wikipedia.org/wiki/Adjoint_representation

   For example, if G is (,), the Lie group of real n-by-n invertible matrices, then the adjoint representation is the group homomorphism that sends an invertible n-by-n matrix to an endomorphism of the vector space of all linear transformations of defined by: .

8. Linear map - Wikipedia

   en.wikipedia.org/wiki/Linear_map

   A specific application of linear maps is for geometric transformations, such as those performed in computer graphics, where the translation, rotation and scaling of 2D or 3D objects is performed by the use of a transformation matrix. Linear mappings also are used as a mechanism for describing change: for example in calculus correspond to ...

9. Proofs involving ordinary least squares - Wikipedia

   en.wikipedia.org/wiki/Proofs_involving_ordinary...

   Recall that M = I − P where P is the projection onto linear space spanned by columns of matrix X. By properties of a projection matrix, it has p = rank(X) eigenvalues equal to 1, and all other eigenvalues are equal to 0. Trace of a matrix is equal to the sum of its characteristic values, thus tr(P) = p, and tr(M) = n − p. Therefore,