81. Student Projects In Linear Algebra Student Projects in linear algebra. Each of the following is an article on linear algebra selected from The College Mathematics Journal. http://online.redwoods.cc.ca.us/instruct/darnold/laproj/

Student Projects in Linear Algebra Instructor: David Arnold Adobe Acrobat Reader You will need Adobe Acrobat Reader to read the files on this site. You can down load the necessary software from the Adobe Site by selecting the AAR link. AAR is free software and has no timelimit on its ownership. The Scientific Notebook You will need to use the Scientific Notebook to read the files on this site. You can also view the files with the Scientific Workplace . You can download viewer software that will allow you to view Scientific Notebook files online. There is no charge for the viewer. You can also download a time-locked, 30-day free trial sample of the Scientific Notebook . There is no charge for the first 30 days, but the software will no longer function beyond the 30-day time limit. Configuring Communicator 4.5 to Read Scientific Notebook Files If Communicator is not configured to read Scientific Notebook files, when you click on a Scientific Notebook file, Communicator will attempt to help you with configuration. Usually, you will be queried with an Unknown File Type dialog. If so, click the Pick App... button. Click the Browse button and browse to the directory containing the Scientific Notebook installation and select the file Scinoteb.exe. Click OK. You will then be asked if you want to Open the file or Save to disk. Select open. From this point forward, you should not have to repeat the process. Communicator is now configured to recognize Scientific Notebook files.

82. Jim Herod's Home Page School of Mathematics at the Georgia Institute of Technology. Page includes author's notes of multivariable calculus, differential equations, and mathematics of biology. various applications and linear algebra (pdf format). Also, has family lineage. http://www.math.gatech.edu/~herod/

Jim Herod's Home Page James V. Herod, Professor Emeritus School of Mathematics Georgia Institute of Technology Atlanta GA USmail: P O Box 1038 Grove Hill AL email: jherod@tds.net Phone: (251) 275 2244 First note that I have retired . I no longer maintain an office at Georgia Tech. Look at my address above! I do answer email. This is the best way to contact me when I am at home. When I travel, my email is different. What follows is a collection of things that please me. I list them in no particular order, give a brief description of what they are about, and provide a contact point to access more details. 1. No More Same Old Calculus: Before I retired, Professor George Cain and I made a common observation : most students entering Georgia Tech have already had the calculus. Because they think they already know the calculus, they often fail to note that the college course expects a deeper understanding of the concepts. Or, the students are bored because their high school calculus was such a good course. Cain and I wanted to make the materials fresh and exciting. Our decision was to present the notions of calculus in a multidimensional setting at the outset. This would take more time than typical in a second year calculus course because we would constantly go back to re-look at the one dimensional setting from this multidimensional perspective. Where could we find a text? Can you guess 2. Asynchronous Studies in Undergraduate Partial Differential Equations:

83. Math 45 - Linear Algebra Math 45 linear algebra. Instructor David Arnold. What Is linear algebra? The Math 45 course at College of the Redwoods http://online.redwoods.cc.ca.us/instruct/darnold/LINALG/Index.htm

Math 45 - Linear Algebra Instructor: David Arnold What Is Linear Algebra? The Math 45 course at College of the Redwoods is an intoductory course in linear algebra. Its primary emphasis is developing matrix techniques for solving systems of linear equations. Along the way students will study Matrices and operations with matrices Determinants Vector spaces Indepent and dependent sets of vectors Bases for vector spaces Linear transformations Eigenvalues and eigenvectors Orthogonal sets and least squares approximation What Are The Prerequisites? If you have completed courses in college algebra and trigonometry, then you are eligible to enroll in CR's introductory linear algebra course. The majority of students in the class will have completed at least one semester of calculus. Who Takes Linear Algebra? Students in mathematics and science usually complete the following core courses in their freshman and sophomore years. First Semester Second Semester Freshman Year Calculus I Calculus II Sophomore Year Calculus III Differential Equations Math and science students are expected to fit an introductory linear algebra course in during one of these first four semesters. At some schools you are required to complete an introductory course in linear algebra before taking the third course in calculus or differential equations.

84. Bioanalytical Chemistry Research At Evergreen Overview and resources from a department which since 1984 has developed spectroscopic instruments, computer interfacing, image processing, applied linear algebra, and organic chemistry synthesis procedures for physiological research and clinical use, at Evergreen State College, Olympia, WA. http://www.evergreen.edu/biophysics/

Bioanalytical chemistry research at The Evergreen State College is conducted in the laboratory of Dr. Jeff Kelly and Dr. Clyde Barlow. Together, they have been developing physiological procedures and instruments for research and clinical use since 1984. Their work is funded mainly by the National Institutes of Health under the set-aside program Small Business Innovation Research . The lab motto is "If it were easy, it would already have been done." Students can gain valuable laboratory research experience while working on a variety of projects in the fields of physiology, spectroscopy, computer interfacing, image processing, applied linear algebra, and organic chemistry synthesis. The laboratory staff possesses many years of experience working with optical detection of fluorescence and reflectance, electronic design, instrument construction and the development of software for data analysis and computer control of instrumentation. Clyde Barlow, PhD, Faculty Member ( barlowc@evergreen.edu On Leave for 2003/04 Academic Year Environmental Analysis 2002/03 Academic Program Curriculum Vitae Home Page Jeff Kelly, PhD, Faculty Member (

85. Linear Algebra With Applications linear algebra With Applications Second Edition. by Otto Bretscher. Important Note To use our websites, we recommend that you use http://cwx.prenhall.com/bookbind/pubbooks/bretscher/

Linear Algebra With Applications Second Edition by Otto Bretscher Important Note: If you need to upgrade your browser, go to our Browser Tune-up page Select a section: Section 1.1: Introduction to Linear Systems Section 1.2: Matrices and Gauss-Jordan Elimination Section 1.3: On the Solutions of Linear Systems Section 2.1: Introduction to Linear Transformations and Their Inverses Section 2.2: Linear Transformations in Geometry Section 2.3: The Inverse of a Linear Transformation Section 2.4: Matrix Products Section 3.1: Image and Kernel of a Linear Transformation Section 3.2: Subspaces of R n ; Bases and Linear Independence Section 3.3: The Dimension of a Subspace of R n Section 3.4: Coordinates Section 4.1: Introduction to Linear Spaces Section 4.2: Linear Transformations and Isomorphisms Section 4.3: Coordinates in a Linear Space Section 5.1: Orthonormal Bases and Orthogonal Projections Section 5.2: Gram-Schmidt Process and QR Factorization Section 5.3: Orthogonal Transformations and Orthogonal Matrices Section 5.4: Least Squares and Data Fitting Section 5.5: Inner Product Spaces

86. Linear And Multilinear Algebra Includes information on subscription, paper submission, and table of contents. http://www.csun.edu/~hcmth042/

An international journal publishing articles, reviews and problems Editor in Chief: WILLIAM WATKINS Department of Mathematics California State University Northridge, California, CA 91330-8313 USA lama@csun.edu Founding Editors: MARVIN MARCUS and ROBERT C. THOMPSON Associate Editor: C-K LI Department of Mathematics College of William And Mary Williamsburg, VA 23187 USA ckli@math.wm.edu Editorial Board Table of Contents of Volumes 41-50 Table of Contents of Volumes 21-40 ... Call for Nomination for the Hans Schneider Prize General Information Ordering Information Subscription Rates This page last updated February 19, 2004

87. Linear Algebra With Applications linear algebra With Applications Sixth Edition. by Steven J. Leon. Important Note To use our websites, we recommend that you use http://cwx.prenhall.com/bookbind/pubbooks/esm_leon_linear_6/

Linear Algebra With Applications Sixth Edition by Steven J. Leon Important Note: If you need to upgrade your browser, go to our Browser Tune-up page Select a section: Section 1.1: Systems of Linear Equations Section 1.2: Row Echelon Form Section 1.3: Matrix Algebra Section 1.4 Elementary Matrices Section 1.5: Partitioned Matrices Section 2.1: The Determinant of a Matrix Section 2.2: Properties of Determinants Section 2.3: Cramer's Rule Section 3.1 Definition and Examples Section 3.2: Subspaces Section 3.3: Linear Independence Section 3.4: Basis and Dimension Section 3.5: Change of Basis Section 3.6: Row Space and Column Space Section 4.1: Linear Transformations: Definition and Examples Section 4.2: Matrix Representations of Linear Transformations Section 4.3: Similarity Section 5.1: The Scalar Product in R n Section 5.2: Orthagonal Subspaces Section 5.3: Least Squares Problems Section 5.4: Inner Product Spaces Section 5.5: Orthonormal Sets Section 5.6: The Gram-Schmidt Orthogonalization Process Section 5.7: Orthogonal Polynomials Section 6.1: Eigenvalues and

88. OptimaNumerics linear algebra library and random number generator programs. Includes contact information. http://www.OptimaNumerics.com/

Home Main Menu Home About Us Partners and Resellers Contact Us ... News Products OptimaNumerics Linear Algebra Module OptimaNumerics Parallel Linear Algebra Module OptimaNumerics Parallel Random Number Generators Module Login Form Username Password Remember me Forgotten your password No account yet? Create one Newsflash OptimaNumerics is now the high performance numerical computing division of Heuchera Technologies, building on Heuchera Technologies track record in technical and scientific computing! Sunday, 06 June 2004 Welcome to OptimaNumerics Friday, 27 February 2004 At OptimaNumerics, we make highly efficient scientific and technical computing accessible to the world. A key obstacle to achieving maximum performance is the complexity of algorithms, software and hardware. To build high performance scientific and applications, developers need to have a thorough understanding of the algorithm, system software, and complex computer architecture. Our OptimaNumerics tools will allow you to bypass these complexities and make building high performance scientific and applications across a broad range of hardware easier than you can ever imagine. With a philosophy of working in partnership, we can help solve the world's most complex computational science problems.

89. Linear Algebra Notes And Exercises linear algebra Notes and Exercises. ©1999 by Jonathan Spingarn. last revised December 7, 1999. This is a collection of minilessons http://www.mathphysics.com/spingarn/lane/

Linear Algebra Notes and Exercises last revised December 7, 1999 This is a collection of mini-lessons in pdf format designed for self-instruction over the web. Lessons are available on the following topics: basic matrix concepts matrix operations elementary row operations matrix-inversion ... Gauss-Jordan method

90. HPC-Netlib: Linear Algebra Software HPCNetlib linear algebra Software. Software Catalog Software Evaluations Literature hpc-netlib@netlib.org. http://www.nhse.org/hpc-netlib/linalg/

HPC-Netlib: Linear Algebra Software Software Catalog Software Evaluations Literature hpc-netlib@netlib.org

91. PORT Mathematical Subroutine Library Collection of Fortran 77 routines that address many traditional areas of mathematical software, including approximation, ordinary and partial differential equations, linear algebra and eigensystems, optimization, quadrature, root finding, special functions, and Fourier transforms, but excluding statistical calculations. PORT stands for Portable, Outstanding, Reliable, and Tested. http://www.bell-labs.com/project/PORT/

PORT Mathematical Subroutine Library Research Work Of various current and former Bell Labs people, including Jim Blue Phyllis Fox Wayne Fullerton David Gay Eric Grosse Andy Hall Linda Kaufman Wes Petersen Norm Schryer The PORT Mathematical Subroutine Library (third edition) is a collection of Fortran 77 routines that address many traditional areas of mathematical software, including approximation, ordinary and partial differential equations, linear algebra and eigensystems, optimization, quadrature, root finding, special functions, and Fourier transforms, but excluding statistical calculations. PORT stands for Portable, Outstanding, Reliable, and Tested. Available Reference Information PORT 3 Manual in Postscript or PDF format Non-Commercial License Agreement and Available Software PORT Mathematical Subroutine Library (third edition) Fortran 77 source Tue Oct 7 15:12:13 EDT 1997 ehg@lucent.com Privacy statement Agere

92. Fields Institute - Numerical Linear Algebra Workshop on Numerical linear algebra in Scientific and Engineering Applications October 29 November 2, 2001 The Fields Institute, Second Floor. http://www.fields.utoronto.ca/programs/scientific/01-02/numerical/linear_algebra

THEMATIC PROGRAMS June 6, 2004 Home About Us NPCDS/PNSDC Mathematics Education ... Search Numerical and Computational Challenges in Science and Engineering Workshop on Numerical Linear Algebra in Scientific and Engineering Applications October 29 - November 2, 2001 The Fields Institute, Second Floor Organizers: Gene H. Golub (Stanford University) Esmond G. Ng (Lawrence Berkeley National Laboratory) Housing and Hotels Thematic Year Homepage Workshop Schedule and Speaker Abstracts ... Visitor Information The workshop is sponsored by the SIAM Activity Group on Linear Algebra. In the last decade computational work has become as important as theoretical and experimental work in many branches of science and engineering. Numerical linear algebra is often at the heart of many computational science and engineering problems, such as materials science simulations, computational finance, structural biology, and image and signal processing, just to name a few. The success of such computational work relies heavily on the development of state-of-the-art algorithms for solving various numerical linear algebra problems. The goal of the Workshop on Numerical Linear Algebra in Scientific and Engineering Applications is to bring together computational scientists and researchers in numerical linear algebra to foster interaction and collaboration between the two communities. The workshop will highlight not only numerical linear algebra problems arising from several computational science problems, but it will also present recent developments in the area of numerical linear algebra.

93. Nick Higham University of Manchester. Numerical linear algebra, numerical analysis, scientific computation. http://www.ma.man.ac.uk/~higham/

Nick Higham Affiliations Research Interests Positions Available Books ... Search Engines Ph.D. (Numerical Analysis), University of Manchester, 1985. Richardson Professor of Applied Mathematics Royal Society-Wolfson Research Merit Award holder Department of Mathematics Phone : +44 (0)161 275 5822 ... Manchester , M13 9PL, UK Email: higham@ma.man.ac.uk Affiliations Director of Manchester Centre for Computational Mathematics Member of editorial boards of Foundations of Computational Mathematics IMA Journal of Numerical Analysis Linear Algebra and its Applications Numerical Algorithms ... SIAM Journal On Matrix Analysis and Applications Editor-in-Chief of new SIAM book series Fundamentals of Algorithms Research Interests Numerical linear algebra Numerical analysis Scientific computation Positions Available Lectureships in Applied Mathematics and Pure Mathematics (closing date May 31, 2004). M.Sc. in Applied Numerical Computing . EPSRC funding available for UK or EU students. Postgraduate opportunities and postdoctoral opportunities Books Accuracy and Stability of Numerical Algorithms SIAM Second edition , August 2002, xxx+680 pp.).

94. MIT OpenCourseWare | Mathematics | 18.06 Linear Algebra, Fall 2002 | Home Basic subject on matrix theory and linear algebra, emphasizing topics useful in other disciplines, including systems of equations, vector spaces, determinants http://ocw.mit.edu/OcwWeb/Mathematics/18-06Linear-AlgebraFall2002/CourseHome/

var wtl_loc = document.URL.indexOf('https:')==0?'https://a248.e.akamai.net/v/248/2120/1d/download.akamai.com/crs/lgsitewise.js':'http://crs.akamai.com/crs/lgsitewise.js'; document.write(""); Search All OpenCourseWare This Course Advanced search Course Home Syllabus Calendar ... Linear Algebra, Fall 2002 18.06 Linear Algebra, Fall 2002 http://www4.ncsu.edu/~kaltofen/courses/LinAlgebra/Maple/big.gif Highlights of this Course This course has been translated by Universia and is available and em Portugues This site features a complete set of video lectures by Professor Gilbert Strang. There is also a collection of old exams-dating to 1993-on the site, along with a variety of Java Applets, a list of required readings and the subject assignments. The text for this class is Introduction to Linear Algebra by Gilbert Strang, Wellesley-Cambridge Press (March 2003). learning community Course Description Staff Instructor: Prof. Gilbert Strang Course Meeting Times Lectures: Three sessions / week 1 hour / session Level Undergraduate Feedback Send feedback about OCW or this course.

95. Householder XV The Householder Symposia are international meetings devoted to matrix computations and linear algebra which are held at three year intervals. The meetings, which last for five days, are restricted to about 125 people and are intensive, with plenary talks during the day and special sessions in the evenings. Peebles, Scotland; 1722 June 2002. http://www.maths.strath.ac.uk/~matrix/

Householder Symposium XV, 2002 Peebles, Scotland June 17th - 21st, 2002 Conference Information Click here to read a report of the meeting (in PDF format) written by Mark Embree of Rice University for SIAM News. NEW Click here to see some photos of the meeting. NEW Click here to find links to some of the talks given at the meeting NEW Click here to see the conference song (as penned by Jim Demmel in tribute to Scotland's national poet, Robert Burns). NEW Click here to see the final schedule. Click here to view the abstract book (in PDF format). Click here for the list of delegates. Click here for information about getting to Peebles. Click here for information about local arrangements and to download a copy of the registration form. The deadline for registration was 17th March 2002 Click here for details of the Householder Prize for the best dissertation in numerical algebra between 1st January 1999 and 31st December 2001. The deadline for nominations was 15th February 2002 Venue Peebles Hotel Hydro is situated on the outskirts of Peebles, a picturesque and historic market town in the heart of the Scottish Borders. It is 22 miles (36 km) southwest of Edinburgh and 55 miles (88 km) southeast of Glasgow, and so is within easy reach of Scotland's major airports, but is in a peaceful and secluded location.

96. Math_Tutor Will complete assignments and guarantee their accuracy. Algebra, linear algebra, geometry, trig, and calculus. http://www.geocities.com/borrork007/Math_Tutor.html

Ken's math tutoring I complete your math homework and math assignments, typically within 90 minutes. Correct solutions are guaranteed in math subjects listed (below) Go ahead and send your problems, due date, and phone number, I will reply with your rate: MathTutor@ureach.com I also offer emergency service, and can complete a problem set within 24 hours Any Algebra including College Algebra, Geometry, Trig, Calculus, Statistics, Finance, SAT, GED Ken Borror Name: MathTutor@ureach.com Email: Phone: Fax:

97. ISU Linear Algebra Seminar infomation about the weekly linear algebra seminar in the Department of Mathematics at Iowa State University. ISU linear algebra Seminar. http://www.math.iastate.edu/lhogben/research/linalgsem.html

ISU Linear Algebra Seminar The ISU LInear Algebra Seminar is finished for spring 2004. It will resume in Septemrber 2004. The Linear Algebra Seminar at Iowa State University is an eclectic mix of topics, all related to matrices or linear operators. Presentations vary with the speaker and include the speaker's research, related research by others, and expository talks. If the semester has a theme, approximately half the talks during the semester relate to the theme. The Spring 2004 theme was Spectral Graph Theory May 18, 10 AM Carver 408 Summmer Mathematics Colloquium Speaker: Francesco Barioli Title: Completely Positive Matrices Abstract: An n-by-n symmetric nonnegative matrix A is called completely positive if A=V^t V for some t-by-n nonnegative matrix V. The minimal t for which such a matrix V exists is called the Cp-rank of A. At the moment no definitive test is known that check complete positivity of a given matrix. Similarly, there is not a general procedure that computes the Cp-rank of a CP-matrix. In this talk we present a survey of the main results on this natural but mysterious class of matrices. Index Current seminar speaker and topic This semester's theme Meeting time and place Future speakers and topics ... Past lectures Links to other linear algebra sites Spring 2004 Theme: Spectral Graph Theory i j is nonzero (with distinct i, j). In recent years there has been a great deal of interest in the possible eigenvalues of a real symmetric matrix whose nonzero entries are described by a given graph, especially a tree (i.e., a connected graph with no cycles). The question of possible eigenvalues is referred to as the Inverse Eigenvalue Problem. Many of the talks this semester will focus on the Inverse Eigenvalue Problem and related concepts. Additional talks will explore other aspects of spectral graph theory including the spectra of various matrices associated with a graph.

98. SLICOT Subroutine library providing Fortran 77 implementations of numerical algorithms for computations in systems and control theory. Based on numerical linear algebra routines from BLAS and LAPACK libraries, SLICOT provides methods for the design and analysis of control systems. Freeware for scientific (noncommercial) use http://www.win.tue.nl/niconet/NIC2/slicot.html

The Control and Systems Library SLICOT General information The freeware subroutine library SLICOT provides Fortran 77 implementations of numerical algorithms for computations in systems and control theory. Based on numerical linear algebra routines from BLAS and LAPACK libraries, SLICOT provides methods for the design and analysis of control systems. The basic ideas behind the library are: 1. usefulness of algorithms; 2. robustness, algorithms must either return reliable results or an error or warning indicator; numerical stability and accuracy: the results are as good as can be expected when working at a given precision. If possible an estimate of the achieved accuracy should be given; performance with respect to speed and memory requirements. Although important because of ever increasing complexity of control problems, this objective may never be met at cost of the two previous ones; 5. portability and reusability the library should be independent of platforms; standardisation based on rigorous programming and documentation standards;

99. Centrality Of Linear Algebra On the Centrality of linear algebra in the Curriculum. Carl C. Cowen. The Reform of the linear algebra Course. Why am I telling you this? http://www.maa.org/features/cowen.html

Search MAA Online MAA Home On the Centrality of Linear Algebra in the Curriculum Carl C. Cowen Remarks on receiving the Deborah and Franklin Tepper Haimo Award for Distinguished College or University Teaching of Mathematics, San Diego California, January 1997. Introduction A Little History The Reform of the Linear Algebra Course The Role of the Computer in the Classroom ... References While this is an opportunity for me to lay out my "secrets" for successful teaching, I have too few secrets and they are too well known for me to talk for more than a few minutes about them. Instead of talking more about my secrets, I want to talk at some length about the role of linear algebra in the curriculum and the opportunities it presents for teaching. A good friend of mine tells me that teaching differential equations is much more rewarding and interesting; she is probably right, for her. For me, though, linear algebra has become the focus of my instructional work and having that focus has been critical to my development as a teacher; I urge you to find the venues that are right for you to develop your teaching skills and that will enable you to make the strongest contributions in your institution. A Little History I taught linear algebra the first semester I was in a college classroom and most semesters since then. At first this was accidental, but later, as I began to consider the curricular issues involved, I realized that linear algebra plays a pivotal role in the curriculum both for majors and Mathematically oriented non-majors, so I wanted to teach it frequently.

100. LAPACK -- Linear Algebra PACKage written in Fortran77; provides routines for solving systems of simultaneous linear equations, leastsquares solutions of linear systems of equations, eigenvalue problems, and singular value problems. http://netlib2.cs.utk.edu/lapack/

LAPACK Linear Algebra PACKage L A P A C K L -A P -A C -K L A P A -C -K L -A P -A -C K L A -P -A C K L -A -P A C -K ( l l l l ) ( a -a a -a ) 1/4 * ( p p -p -p ) ( a -a -a a ) ( c c -c -c ) ( k -k -k k ) Version 3.0 lapack@cs.utk.edu # Accesses [Home] [Contact] ... [Year 2000 Readiness Disclosure] LAPACK is written in Fortran77 and provides routines for solving systems of simultaneous linear equations, least-squares solutions of linear systems of equations, eigenvalue problems, and singular value problems. The associated matrix factorizations (LU, Cholesky, QR, SVD, Schur, generalized Schur) are also provided, as are related computations such as reordering of the Schur factorizations and estimating condition numbers. Dense and banded matrices are handled, but not general sparse matrices. In all areas, similar functionality is provided for real and complex matrices, in both single and double precision. If you're uncertain of the LAPACK routine name to address your application's needs, check out the

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