Computational Linear Algebra

Name: Computational Linear Algebra
Brand: Taylor & Francis Ltd
SKU: 9781032302461
Price: 59.99 EUR
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A01=Robert E. White

advanced linear algebra for engineers

Author_Robert E. White

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Category=PBT

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Cholesky Factorization

Conjugate Gradient Method

Diagonal Components

eigenvalue analysis

Elementary Row Operation

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eq_computing

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Full Column Rank

Gauss Elimination

Gauss Transform

Householder Transform

iterative solution methods

least squares problems

Levenberg Marquardt Method

Linear algebra

Linearly Independent

LU Factor

MATLAB

matrix computation techniques

Numerical analysis

Ordinary Differential Equation

Orthonormal Basis

Orthonormal Eigenvectors

Orthonormal Properties

QR Algorithm

QR Factorization

Regular Splitting

Row Operations

Schur Complement

Schur Complement Matrix

scientific computing applications

singular value decomposition

SPD

SPD Matrix

Steepest Descent Method

Truncated SVD

undergraduate mathematics course

Product details

ISBN 9781032302461
Weight: 600g
Dimensions: 156 x 234mm
Publication Date: 21 Apr 2023
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Hardback

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Courses on linear algebra and numerical analysis need each other. Often NA courses have some linear algebra topics, and LA courses mention some topics from numerical analysis/scientific computing. This text merges these two areas into one introductory undergraduate course. It assumes students have had multivariable calculus. A second goal of this text is to demonstrate the intimate relationship of linear algebra to applications/computations.

A rigorous presentation has been maintained. A third reason for writing this text is to present, in the first half of the course, the very important topic on singular value decomposition, SVD. This is done by first restricting consideration to real matrices and vector spaces. The general inner product vector spaces are considered starting in the middle of the text.

The text has a number of applications. These are to motivate the student to study the linear algebra topics. Also, the text has a number of computations. MATLAB® is used, but one could modify these codes to other programming languages. These are either to simplify some linear algebra computation, or to model a particular application.

Robert E. White is Professor Emeritus, North Carolina State University. He is also the author of Computational Mathematics: Models, Methods, Analysis with MATLAB® and MPI, second edition and Elements of Matrix Modeling and Computing with MATLAB®, both published by CRC Press.