Courses > Mathematics > Introduction to Numerical Methods Email this page18.335J Introduction to Numerical Methods




Courses > Mathematics > Introduction to Numerical Methods

18.335J Introduction to Numerical Methods

Fall 2004

Eigenvalues of the 100´100 Pascal Matrix.
Eigenvalues of the 100 x 100 Pascal Matrix. (Image by Plamen Koev.)

Course Highlights

This course features lecture notes and assignments with solutions.

Course Description

The focus of this course is on numerical linear algebra and numerical methods for solving ordinary differential equations. Topics include linear systems of equations, least square problems, eigenvalue problems, and singular value problems.

Technical Requirements

MATLAB® software is required to run the .m files found on this course site.

 Courses > Mathematics > Introduction to Numerical Methods

 

Download Course Materials

 

The zip of this course is currently not available. Please check back later.


Click the link above to start downloading this course.

About our Zip files

Zip files contain the same content as the online version, with the exception of audio and video files; these must be downloaded separately.

For help downloading and using Zip files, read our frequently asked questions.

All of the Materials included in the Zip files are governed by the same Creative Commons license that governs use of Materials published on MIT OpenCourseWare.

Help support MIT OpenCourseWare

If these materials are helpful to you, please consider making a donation to MIT OpenCourseWare. Your contribution of $25, $50, $100 - or whatever amount is right for you - directly supports the production and distribution of high quality MIT course materials.

12NextPage





Download links for : << Courses > Mathematics > Introduction to Numerical Methods This course offers an advanced introduction to numerical linear algebra >>
"Courses > Mathematics > Introduction to Numerical Methods Email this page18.335J Introduction to Numerical Methods"


How to Download
You may need eMule or Bittorrent to download ebook torrents or emule links.

Report Dead Link
Please leave a comment to report dead links, so that someone else may update new links.


Search More...

[share-ebook]Courses > Mathematics > Introduction to Numerical Methods Email this page18.335J Introduction to Numerical Methods

Google

Related Books


Books related to :

<< Courses > Mathematics > Introduction to Numerical Methods This course offers an advanced introduction to numerical linear algebra

Courses > Mathematics > Wavelets, Filter Banks and Applications Wavelets are localized basis functions, good for representing short-time events >>


The New York Times rss

    Google

    Courses > Mathematics > Introduction to Numerical Methods Email this page18.335J Introduction to Numerical Methods

    Courses > Mathematics > Introduction to Numerical Methods

    18.335J Introduction to Numerical Methods

    Fall 2004

    Eigenvalues of the 100´100 Pascal Matrix.
    Eigenvalues of the 100 x 100 Pascal Matrix. (Image by Plamen Koev.)

    Course Highlights

    This course features lecture notes and assignments with solutions.

    Course Description

    The focus of this course is on numerical linear algebra and numerical methods for solving ordinary differential equations. Topics include linear systems of equations, least square problems, eigenvalue problems, and singular value problems.

    Technical Requirements

    MATLAB® software is required to run the .m files found on this course site.

     Courses > Mathematics > Introduction to Numerical Methods

     

    Download Course Materials

     

    The zip of this course is currently not available. Please check back later.


    Click the link above to start downloading this course.

    About our Zip files

    Zip files contain the same content as the online version, with the exception of audio and video files; these must be downloaded separately.

    For help downloading and using Zip files, read our frequently asked questions.

    All of the Materials included in the Zip files are governed by the same Creative Commons license that governs use of Materials published on MIT OpenCourseWare.

    Help support MIT OpenCourseWare

    If these materials are helpful to you, please consider making a donation to MIT OpenCourseWare. Your contribution of $25, $50, $100 - or whatever amount is right for you - directly supports the production and distribution of high quality MIT course materials.