Matrices, Vectors, Determinants, and Linear Algebra
نویسنده
چکیده
1. Matrices, Vectors and their Basic Operations 1.1. Matrices 1.2. Vectors 1.3. Addition and Scalar Multiplication of Matrices 1.4. Multiplication of Matrices 2. Determinants 2.1. Square Matrices 2.2. Determinants 2.3. Cofactors and the Inverse Matrix 3. Systems of Linear Equations 3.1. Linear Equations 3.2. Cramer’s Rule 3.3. Eigenvalues of a Complex Square Matrix 3.4. Jordan Canonical Form 4. Symmetric Matrices and Quadratic Forms 4.1. Real Symmetric Matrices and Orthogonal Matrices 4.2. Hermitian Symmetric Matrices and Unitary Matrices 5. Vector Spaces and Linear Algebra 5.1. Vector spaces 5.2. Subspaces 5.3. Direct Sum of Vector Spaces 5.4. Linear Maps 5.5. Change of Bases 5.6. Properties of Linear aps 5.7. A System of Linear Equations Revisited 5.8. Quotient Vector Spaces 5.9. Dual Spaces 5.10. Tensor Product of Vector Spaces 5.11. Symmetric Product of a Vector Space 5.12. Exterior Product of a Vector Space Glossary Bibliography Biographical Sketch
منابع مشابه
A brief introduction to quaternion matrices and linear algebra and on bounded groups of quaternion matrices
The division algebra of real quaternions, as the only noncommutative normed division real algebra up to isomorphism of normed algebras, is of great importance. In this note, first we present a brief introduction to quaternion matrices and quaternion linear algebra. This, among other things, will help us present the counterpart of a theorem of Herman Auerbach in the setting of quaternions. More ...
متن کاملSymbolic computation of the Duggal transform
Following the results of cite{Med}, regarding the Aluthge transform of polynomial matrices, the symbolic computation of the Duggal transform of a polynomial matrix $A$ is developed in this paper, using the polar decomposition and the singular value decomposition of $A$. Thereat, the polynomial singular value decomposition method is utilized, which is an iterative algorithm with numerical charac...
متن کاملSingular value inequalities for positive semidefinite matrices
In this note, we obtain some singular values inequalities for positive semidefinite matrices by using block matrix technique. Our results are similar to some inequalities shown by Bhatia and Kittaneh in [Linear Algebra Appl. 308 (2000) 203-211] and [Linear Algebra Appl. 428 (2008) 2177-2191].
متن کاملVectorial spaces, matrix representation, special matrices
Algebraic operations on matrices can be interpreted geometrically if one considers coefficients of matrices as coordinates of vectors. However, our geometrical intuition suggests that vectors “exist” in their own right irrespective of their coordinates. After all, the same vector may have different coordinates in different coordinate systems. This means that the link between vectorial quantitie...
متن کاملEla Determinants of Multidiagonal Matrices
Abstract. The formulas presented in [Molinari, L.G. Determinants of block tridiagonal matrices. Linear Algebra Appl., 2008; 429, 2221–2226] for evaluating the determinant of block tridiagonal matrices with (or without) corners are used to derive the determinant of any multidiagonal matrices with (or without) corners with some specified non-zero minors. Algorithms for calculation the determinant...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
عنوان ژورنال:
دوره شماره
صفحات -
تاریخ انتشار 2011