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Practical linear algebra : a geometry toolbox 3rd ed

Practical linear algebra : a geometry toolbox 3rd ed (1회 대출)

자료유형
단행본
개인저자
Farin, Gerald E. Hansford, Dianne.
서명 / 저자사항
Practical linear algebra : a geometry toolbox / Gerald Farin, Dianne Hansford.
판사항
3rd ed.
발행사항
Boca Raton :   CRC Press, Taylor & Francis Group,   c2014.  
형태사항
xvi, 498 p. : ill. ; 25 cm.
ISBN
9781466579569 (hardback)
요약
"Practical Linear Algebra covers all the concepts in a traditional undergraduate-level linear algebra course, but with a focus on practical applications. The book develops these fundamental concepts in 2D and 3D with a strong emphasis on geometric understanding before presenting the general (n-dimensional) concept. The book does not employ a theorem/proof structure, and it spends very little time on tedious, by-hand calculations (e.g., reduction to row-echelon form), which in most job applications are performed by products such as Mathematica. Instead the book presents concepts through examples and applications. "--
서지주기
Includes bibliographical references and index.
일반주제명
Algebras, Linear --Study and teaching. Geometry, Analytic --Study and teaching. Linear operators.
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010 ▼a 2013016125
020 ▼a 9781466579569 (hardback)
035 ▼a (KERIS)REF000017148066
040 ▼a DLC ▼b eng ▼c DLC ▼d DLC ▼e rda ▼d 211009
050 0 0 ▼a QA184.2 ▼b .F37 2014
082 0 0 ▼a 512/.5 ▼2 23
084 ▼a 512.5 ▼2 DDCK
090 ▼a 512.5 ▼b F225p3
100 1 ▼a Farin, Gerald E.
245 1 0 ▼a Practical linear algebra : ▼b a geometry toolbox / ▼c Gerald Farin, Dianne Hansford.
250 ▼a 3rd ed.
260 ▼a Boca Raton : ▼b CRC Press, Taylor & Francis Group, ▼c c2014.
300 ▼a xvi, 498 p. : ▼b ill. ; ▼c 25 cm.
504 ▼a Includes bibliographical references and index.
520 ▼a "Practical Linear Algebra covers all the concepts in a traditional undergraduate-level linear algebra course, but with a focus on practical applications. The book develops these fundamental concepts in 2D and 3D with a strong emphasis on geometric understanding before presenting the general (n-dimensional) concept. The book does not employ a theorem/proof structure, and it spends very little time on tedious, by-hand calculations (e.g., reduction to row-echelon form), which in most job applications are performed by products such as Mathematica. Instead the book presents concepts through examples and applications. "-- ▼c Provided by publisher.
650 0 ▼a Algebras, Linear ▼x Study and teaching.
650 0 ▼a Geometry, Analytic ▼x Study and teaching.
650 0 ▼a Linear operators.
700 1 ▼a Hansford, Dianne.
945 ▼a KLPA

소장정보

No. 소장처 청구기호 등록번호 도서상태 반납예정일 예약 서비스
No. 1 소장처 과학도서관/Sci-Info(2층서고)/ 청구기호 512.5 F225p3 등록번호 121236142 도서상태 대출가능 반납예정일 예약 서비스 B M

컨텐츠정보

목차

Descartes’ Discovery
Local and Global Coordinates: 2D
Going from Global to Local
Local and Global Coordinates: 3D
Stepping Outside the Box
Application: Creating Coordinates

Here and There: Points and Vectors in 2D
Points and Vectors
What’s the Difference?
Vector Fields
Length of a Vector
Combining Points
Independence
Dot Product
Orthogonal Projections
Inequalities

Lining Up: 2D Lines
Defining a Line
Parametric Equation of a Line
Implicit Equation of a Line
Explicit Equation of a Line
Converting Between Parametric and Implicit Equations
Distance of a Point to a Line
The Foot of a Point
A Meeting Place: Computing Intersections

Changing Shapes: Linear Maps in 2D
Skew Target Boxes
The Matrix Form
Linear Spaces
Scalings
Reflections
Rotations
Shears
Projections
Areas and Linear Maps: Determinants
Composing Linear Maps
More on Matrix Multiplication
Matrix Arithmetic Rules

2 x 2 Linear Systems
Skew Target Boxes Revisited
The Matrix Form
A Direct Approach: Cramer’s Rule
Gauss Elimination
Pivoting
Unsolvable Systems
Underdetermined Systems
Homogeneous Systems
Undoing Maps: Inverse Matrices
Defining a Map
A Dual View

Moving Things Around: Affine Maps in 2D
Coordinate Transformations
Affine and Linear Maps
Translations
More General Affine Maps
Mapping Triangles to Triangles
Composing Affine Maps

Eigen Things
Fixed Directions
Eigenvalues
Eigenvectors
Striving for More Generality
The Geometry of Symmetric Matrices
Quadratic Forms
Repeating Maps

3D Geometry
From 2D to 3D
Cross Product
Lines
Planes
Scalar Triple Product
Application: Lighting and Shading

Linear Maps in 3D
Matrices and Linear Maps
Linear Spaces
Scalings
Reflections
Shears
Rotations
Projections
Volumes and Linear Maps: Determinants
Combining Linear Maps
Inverse Matrices
More on Matrices

Affine Maps in 3D
Affine Maps
Translations
Mapping Tetrahedra
Parallel Projections
Homogeneous Coordinates and Perspective Maps

Interactions in 3D
Distance between a Point and a Plane
Distance between Two Lines
Lines and Planes: Intersections
Intersecting a Triangle and a Line
Reflections
Intersecting Three Planes
Intersecting Two Planes
Creating Orthonormal Coordinate Systems

Gauss for Linear Systems
The Problem
The Solution via Gauss Elimination
Homogeneous Linear Systems
Inverse Matrices
LU Decomposition
Determinants
Least Squares
Application: Fitting Data to a Femoral Head

Alternative System Solvers
The Householder Method
Vector Norms
Matrix Norms
The Condition Number
Vector Sequences
Iterative System Solvers: Gauss-Jacobi and Gauss-Seidel

General Linear Spaces
Basic Properties of Linear Spaces
Linear Maps
Inner Products
Gram-Schmidt Orthonormalization
A Gallery of Spaces

Eigen Things Revisited
The Basics Revisited
The Power Method
Application: Google Eigenvector
Eigenfunctions

The Singular Value Decomposition
The Geometry of the 2 x 2 Case
The General Case
SVD Steps
Singular Values and Volumes
The Pseudoinverse
Least Squares
Application: Image Compression
Principal Components Analysis

Breaking It Up: Triangles
Barycentric Coordinates
Affine Invariance
Some Special Points
2D Triangulations
A Data Structure
Application: Point Location
3D Triangulations

Putting Lines Together: Polylines and Polygons
Polylines
Polygons
Convexity
Types of Polygons
Unusual Polygons
Turning Angles and Winding Numbers
Area
Application: Planarity Test
Application: Inside or Outside?

Conics
The General Conic
Analyzing Conics
General Conic to Standard Position

Curves
Parametric Curves
Properties of Bezier Curves
The Matrix Form
Derivatives
Composite Curves
The Geometry of Planar Curves
Moving along a Curve

Appendix A: Glossary
Appendix B: Selected Exercise Solutions

Bibliography

Index

Exercises appear at the end of each chapter.


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