Servicepart. References 379. Index 381

Similar documents
homogeneous 71 hyperplane 10 hyperplane 34 hyperplane 69 identity map 171 identity map 186 identity map 206 identity matrix 110 identity matrix 45

Index. for generalized eigenvalue problem, butterfly form, 211

Index. Banach space 630 Basic Jordan block 378, 420

MATH 240 Spring, Chapter 1: Linear Equations and Matrices

Math 102, Winter Final Exam Review. Chapter 1. Matrices and Gaussian Elimination

HONORS LINEAR ALGEBRA (MATH V 2020) SPRING 2013

LAKELAND COMMUNITY COLLEGE COURSE OUTLINE FORM

Hands-on Matrix Algebra Using R

FINITE-DIMENSIONAL LINEAR ALGEBRA

Math 302 Outcome Statements Winter 2013

SUMMARY OF MATH 1600

Contents. Preface for the Instructor. Preface for the Student. xvii. Acknowledgments. 1 Vector Spaces 1 1.A R n and C n 2

Index. book 2009/5/27 page 121. (Page numbers set in bold type indicate the definition of an entry.)

ABSTRACT ALGEBRA WITH APPLICATIONS

Chapter 3 Transformations

Reduction to the associated homogeneous system via a particular solution

MATHEMATICS COMPREHENSIVE EXAM: IN-CLASS COMPONENT

1. General Vector Spaces

MATH 31 - ADDITIONAL PRACTICE PROBLEMS FOR FINAL

Linear Algebra I for Science (NYC)

MULTIVARIABLE CALCULUS, LINEAR ALGEBRA, AND DIFFERENTIAL EQUATIONS

MATRIX AND LINEAR ALGEBR A Aided with MATLAB

Lecture Summaries for Linear Algebra M51A

LINEAR ALGEBRA 1, 2012-I PARTIAL EXAM 3 SOLUTIONS TO PRACTICE PROBLEMS

Applied Linear Algebra in Geoscience Using MATLAB

HOSTOS COMMUNITY COLLEGE DEPARTMENT OF MATHEMATICS

ELEMENTARY MATRIX ALGEBRA

1 9/5 Matrices, vectors, and their applications

Exercise Sheet 1.

The value of a problem is not so much coming up with the answer as in the ideas and attempted ideas it forces on the would be solver I.N.

Mobile Robotics 1. A Compact Course on Linear Algebra. Giorgio Grisetti

SYLLABUS. 1 Linear maps and matrices

Math 307 Learning Goals

ALGEBRA QUALIFYING EXAM PROBLEMS LINEAR ALGEBRA

ANSWERS (5 points) Let A be a 2 2 matrix such that A =. Compute A. 2

Diagonalizing Matrices

Applied Linear Algebra

1. Foundations of Numerics from Advanced Mathematics. Linear Algebra

Columbus State Community College Mathematics Department Public Syllabus

MAT 211, Spring 2015, Introduction to Linear Algebra.

Algebra Exam Syllabus

ANSWERS. E k E 2 E 1 A = B

Review problems for MA 54, Fall 2004.

Mathematical Methods for Engineers and Scientists 1

Linear Algebra Primer

Linear Algebra Highlights

Linear Algebra Done Wrong. Sergei Treil. Department of Mathematics, Brown University

Ir O D = D = ( ) Section 2.6 Example 1. (Bottom of page 119) dim(v ) = dim(l(v, W )) = dim(v ) dim(f ) = dim(v )

Lecture 1: Review of linear algebra

MAT Linear Algebra Collection of sample exams

Conceptual Questions for Review

Assignment 1 Math 5341 Linear Algebra Review. Give complete answers to each of the following questions. Show all of your work.

Math 113 Final Exam: Solutions

Numerical Methods in Matrix Computations

Review of Some Concepts from Linear Algebra: Part 2

MATH 1120 (LINEAR ALGEBRA 1), FINAL EXAM FALL 2011 SOLUTIONS TO PRACTICE VERSION

GRE Subject test preparation Spring 2016 Topic: Abstract Algebra, Linear Algebra, Number Theory.

Elementary linear algebra

Algebra Exam Topics. Updated August 2017

(Refer Slide Time: 2:04)

spring, math 204 (mitchell) list of theorems 1 Linear Systems Linear Transformations Matrix Algebra

12x + 18y = 30? ax + by = m

Syllabus For II nd Semester Courses in MATHEMATICS

Lesson 3. Inverse of Matrices by Determinants and Gauss-Jordan Method

Linear Algebra. Min Yan

IMPORTANT DEFINITIONS AND THEOREMS REFERENCE SHEET

Preliminary/Qualifying Exam in Numerical Analysis (Math 502a) Spring 2012

ELEMENTARY LINEAR ALGEBRA WITH APPLICATIONS. 1. Linear Equations and Matrices

IMPORTANT DEFINITIONS AND THEOREMS REFERENCE SHEET

Math 520 Exam 2 Topic Outline Sections 1 3 (Xiao/Dumas/Liaw) Spring 2008

MATHEMATICS. Course Syllabus. Section A: Linear Algebra. Subject Code: MA. Course Structure. Ordinary Differential Equations

Introduction to Mobile Robotics Compact Course on Linear Algebra. Wolfram Burgard, Cyrill Stachniss, Kai Arras, Maren Bennewitz

8. Diagonalization.

Math 307 Learning Goals. March 23, 2010

Matrix Mathematics. Theory, Facts, and Formulas with Application to Linear Systems Theory. Dennis S. Bernstein

Glossary of Linear Algebra Terms. Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB

Lecture 7: Positive Semidefinite Matrices

2. Linear algebra. matrices and vectors. linear equations. range and nullspace of matrices. function of vectors, gradient and Hessian

Fundamentals of Engineering Analysis (650163)

Linear Algebra Practice Problems

Linear Algebra: Characteristic Value Problem

MATH 425-Spring 2010 HOMEWORK ASSIGNMENTS

MATH 20F: LINEAR ALGEBRA LECTURE B00 (T. KEMP)

235 Final exam review questions

Solving a system by back-substitution, checking consistency of a system (no rows of the form

MATH 304 Linear Algebra Lecture 34: Review for Test 2.

LinGloss. A glossary of linear algebra

SYLLABUS UNDER AUTONOMY MATHEMATICS

MATH 583A REVIEW SESSION #1

This page intentionally left blank

2. Every linear system with the same number of equations as unknowns has a unique solution.

Chapter 2 Linear Transformations

Math 102 Final Exam - Dec 14 - PCYNH pm Fall Name Student No. Section A0

MAT188H1S LINEAR ALGEBRA: Course Information as of February 2, Calendar Description:

Math 1553, Introduction to Linear Algebra

(v, w) = arccos( < v, w >

Math 18, Linear Algebra, Lecture C00, Spring 2017 Review and Practice Problems for Final Exam

Then x 1,..., x n is a basis as desired. Indeed, it suffices to verify that it spans V, since n = dim(v ). We may write any v V as r

Linear Algebra M1 - FIB. Contents: 5. Matrices, systems of linear equations and determinants 6. Vector space 7. Linear maps 8.

Solving Homogeneous Systems with Sub-matrices

Transcription:

377 Servicepart References 379 Index 381 Springer International Publishing AG 2017 B. Said-Houari, Linear Algebra, Compact Textbooks in Mathematics, DOI 10.1007/978-3-319-63793-8

379 References 1. H. Anton, C. Rorres, Elementary Linear Algebra: with Supplemental Applications, 11th edn. (Wiley, Hoboken, 2011) 2. M. Artin, Algebra, 2nd edn. (Pearson, Boston, 2011) 3. S. Axler, Linear Algebra Done Right. Undergraduate Texts in Mathematics, 2nd edn. (Springer, New York, 1997) 4. E.F. Beckenbach, R. Bellman, Inequalities, vol. 30 (Springer, New York, 1965) 5. F. Boschet, B. Calvo, A. Calvo, J. Doyen, Exercices d algèbre, 1er cycle scientifique, 1er année (Librairie Armand Colin, Paris, 1971) 6. L. Brand, Eigenvalues of a matrix of rank k. Am. Math. Mon. 77(1), 62 (1970) 7. G.T. Gilbert, Positive definite matrices and Sylvester s criterion. Am. Math. Mon. 98(1), 44 46 (1991) 8. R. Godement, Algebra (Houghton Mifflin Co., Boston, MA, 1968) 9. J. Grifone, Algèbre linéaire, 4th edn. (Cépaduès éditions, Toulouse, 2011) 10. G.N. Hile, Entire solutions of linear elliptic equations with Laplacian principal part. Pac. J. Math 62, 127 140 (1976) 11. R.A. Horn, C.R. Johnson, Matrix Analysis, 2nd edn. (Cambridge University Press, Cambridge, 2013) 12. D. Kalman, J.E. White, Polynomial equations and circulant matrices. Am. Math. Mon. 108(9), 821 840 (2001) 13. P. Lancaster, M. Tismenetsky, The Theory of Matrices, 2nd edn. (Academic Press, Orlando, FL, 1985) 14. S. Lang, Linear Algebra. Undergraduate Texts in Mathematics, 3rd edn. (Springer, New York, 1987) 15. L. Lesieur, R. Temam, J. Lefebvre, Compléments d algèbre linéaire (Librairie Armand Colin, Paris, 1978) 16. H. Liebeck, A proof of the equality of column and row rank of a matrix. Am. Math. Mon. 73(10), 1114 (1966) 17. C.D. Meyer, Matrix Analysis and Applied Linear Algebra (SIAM, Philadelphia, PA, 2000) 18. D.S. Mitrinović, J.E. Pečarić, A.M. Fink, Classical and New Inequalities in Analysis. Mathematics and Its Applications (East European Series), vol. 61 (Kluwer Academic, Dordrecht, 1993) 19. C. Moler, C. Van Loan, Nineteen dubious ways to compute the exponential of a matrix, twenty-five years later. SIAM Rev. 45(1), 3 49 (2003) 20. J.M. Monier, Algèbre et géométrie, PC-PST-PT, 5th edn. (Dunod, Paris, 2007) 21. P.J. Olver, Lecture notes on numerical analysis, http://www.math.umn.edu/~olver/num.html. Accessed Sept 2016 22. F. Pécastaings, Chemins vers l algèbre, Tome 2 (Vuibert, Paris, 1986) 23. M. Queysanne, Algebre, 13th edn. (Librairie Armand Colin, Paris, 1964) 24. J. Rivaud, Algèbre linéaire, Tome 1, 2nd edn. (Vuibert, Paris, 1982) 25. S. Roman, Advanced Linear Algebra. Graduate Texts in Mathematics, vol. 135 (Springer, New York, 2008) 26. H. Roudier, Algèbre linéaire: cours et exercices, 3rd edn. (Vuibert, Paris, 2008) 27. B. Said-Houari, Differential Equations: Methods and Applications. Compact Textbook in Mathematics (Springer, Cham, 2015) Springer International Publishing AG 2017 B. Said-Houari, Linear Algebra, Compact Textbooks in Mathematics, DOI 10.1007/978-3-319-63793-8

380 References 28. D. Serre, Matrices. Theory and Applications. Graduate Texts in Mathematics, vol. 216, 2nd edn. (Springer, New York, 2010) 29. G. Strang, Linear Algebra and Its Applications, 3rd edn. (Harcourt Brace Jovanovich, San Diego, 1988) 30. V. Sundarapandian, Numerical Linear Algebra (PHI Learning Pvt. Ltd., New Delhi, 2008) 31. H. Valiaho, An elementary approach to the Jordan form of a matrix. Am. Math. Mon. 93(9), 711 714 (1986)

381 Index Block matrix, 118 Cofactor matrix, 92 Fibonacci sequence, 116 Matrix skew symmetric, 111 Abelian group, 11 Abelian group, 160 Addition of matrices, 8 Adjoint of a matrix, 92 Apollonius identity, 149 Automorphism, 200 of vector spaces, 211 Basis of a vector space, 176 bijective tarnsformation, 215 Binomial formula, 20 cardinality of a set, 178 Cauchy Schwarz inequality, 136, 372 Cayley Hamilton theorem, 305 Characteristic polynomial, 57 Characteristic polynomial, 284 Cholesky decomposition, 348 Cofactor expansion, 74 of a matrix, 73 Column space, 241 Commutative group, 12 Complement of a subspace, 194 Components of a vector, 124 Congruent matrices, 355 Consistent system of linear equations, 263 Convex function, 365 Cramer s rule, 100 Cyclic property of the trace, 373 Determinant, 74 of Vandermonde, 108 Determinant, 57 Diagonalizable matrix, 240, 290 Diagonally dominant matrix, 264 Dimension of a direct sum, 186 of a subspace, 182 of a vector space, 178 Direct sum of vector spaces, 170 Distance, 131 Dot product, 6, 132 Dunford decomposition, 302 Dunkl Williams inequality, 151 Eigenspace, 270 Eigenvalue complete, 275 defective, 275 of a matrix, 278 of a projection, 272 of an endomorphism, 269 Eigenvector generalized, 305 matrix, 295 of a matrix, 278 of an endomorphism, 269 Springer International Publishing AG 2017 B. Said-Houari, Linear Algebra, Compact Textbooks in Mathematics, DOI 10.1007/978-3-319-63793-8

382 Index Elementary matrix, 82 Elementary row operation, 246 Endomorphism, 200 Equation linear, 4 Equivalent matrices, 240 Euclidean norm, 129 vector space, 126 Euler formula, 283 Exponential of a matrix, 32 Factorization LU, 336 QR, 330 Fibonacci matrix, 116 Frobenius inequality, 257 for rank, 223 Gauss elimination, 336 Gauss Jordan elimination method, 41 Global minimum of a function, 365 Gram s matrix, 363 Gram Schmidt process, 328 Group, 11, 126 GL.n; K/, 28 Abelian, 126 of invertible matrices, 65 of matrices, 12 orthogonal, 327 Hölder s inequality, 152 Hankel matrix, 110 Hessian matrix, 368 Homogeneous system,5 Idempotent matrix, 258, 266 Identity operator, 200 Image of a linear transformation, 207 Inconsistent system of linear equations, 263 inconsistent, 264 Index of a matrix, 358 Inertia of a matrix, 354, 359 Injective linear transformation, 205 Inverse of an isomorphism, 212 Isomorphic vector spaces, 212 Isomorphism, 200 of vector spaces, 211 Jordan block, 304 canonical form, 303 Kernel of a linear transformation, 204 Lagrange form of the reminder, 369 Lagrange s identity, 157 Linear combination, 127, 165 dependence, 172 independence, 172 operator, 200 transformation, 200 Linear transformation associated to a matrix, 233 Matrix associated to a linear transformation, 227 augmented, 40 circulant, 319 companion, 112, 317 diagonal, 30, 166 idempotent, 58, 60 identity, 21 inverse,22 involutory, 60 nilpotent, 55, 302

Index 383 non derogatory, 317 of full rank, 242 of Vandermonde, 108, 110 orthogonally diagonalizable, 334 positive definite, 341 positive semi-definite, 347 skew-symmetric, 189 square, 7, 19 symmetric, 52, 189, 297 transpose, 50 triangular, 35, 166 tridiagonal, 116 Matrix inverse determinant of, 90 Maximal linearly independent set, 179 Method of elimination, 2 of substitution, 2 Minimal polynomial, 312 Minkowski inequality, 153 Minor of a matrix, 251 leading principal, 337 of a matrix, 72 principal, 337 Multiplication of matrices, 13 Multiplicity algebraic, 275 geometric, 275 Nilpotent matrix, 308 linear transform, 222 matrix, 310 Norm of a matrix, 371 of a vector, 128 of Frobenius, 371 submultiplicative, 371 Null space, 167 Nullity of a linear transform, 209 Orthogonal complement, 196 matrix, 145, 323 projection, 142, 143 subspace, 165 vectors, 141 Orthonormal basis, 329 vectors, 328 Parallelogram identity, 140 Polarization identity, 140 Positive definite quadratic form, 354 Principal axes theorem, 353 Product of two vector space, 192 Projection transformation, 215 Pythagoras theorem in R n, 144 Quadratic form, 352 function, 365 Rank of a linear transformation, 209 of a matrix, 242 of a symmetric matrix, 346 Rank-nullity theorem, 209 Rayleigh Ritz theorem, 344 Reflection matrix, 326 Ring, 20 of matrices, 22 Rotation matrix, 59, 326 Row operation, 39 Row reduction method, 79 Row space of a matrix, 244 Schur s formula, 118 lemma, 335 Semi-definite matrix, 347 quadratic form, 354 Signature of a matrix, 358

384 Index Similar matrices, 240, 288 Singular matrix, 279 Spectral radius, 375 theorem, 334 Spectrum, 278, 296 Square root of a matrix, 361 Submatrix leading principal, 337 principal, 337 Subspace, 163 Surjective linear transformation, 208 Sylvester s law of nullity, 257 Sylvester s law of inertia, 359 Taylor s theorem, 369 Trace, 57 of a matrix, 37 Transition matrix, 235, 252 Triangle inequality, 139 for rank, 223 Triangularization of a matrix, 298 of an endomorphism, 298 Unit vector, 130 Vector space, 127, 159 Young s inequality, 138, 153

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback