MIT 18.085 Computational Science & Engineering I, Fall 2008

This course provides a review of linear algebra, including applications to
Course Created by Massachusetts Institute of Technology
The mission of MIT is to advance knowledge and educate students in science, technology, and other areas of scholarship that will best serve the nation and the world in the 21st century.

The Institute is committed to generating, disseminating, and preserving knowledge, and to working with others to bring this knowledge to bear on the world's great challenges. MIT is dedicated to providing its students with an education that combines rigorous academic study and the excitement of discovery with the support and intellectual stimulation of a diverse campus community. We seek to develop in each member of the MIT community the ability and passion to work wisely, creatively, and effectively for the betterment of humankind.

Channel banner photo by Ali Almossawi (http://www.flickr.com/photos/usr_c/5633432466/).

  •   Lifetime access to all lessons!
  •   30 days money back guarantee!
  •   Accessible via iPhone, iPad and Android (soon!)

This course provides a review of linear algebra, including applications to networks, structures, and estimation, Lagrange multipliers. Also covered are: differential equations of equilibrium; Laplace's equation and potential flow; boundary-value problems; minimum principles and calculus of variations; Fourier series; discrete Fourier transform; convolution; and applications.

Note: This course was previously called "Mathematical Methods for Engineers I".

View the Complete Course at: ocw.mit.edu/18-085F08

License:

Course Outline

Chapter 1: MIT 18.085 Computational Science & Engineering I, Fall 2008

  • Lesson 1
    Lec 1 | MIT 18.085 Computat…
    54:05
  • Lesson 2
    Rec 1 | MIT 18.085 Computat…
    49:32
  • Lesson 3
    Lec 2 | MIT 18.085 Computat…
    52:27
  • Lesson 4
    Lec 3 | MIT 18.085 Computat…
    54:40
  • Lesson 5
    Lec 4 | MIT 18.085 Computat…
    55:39
  • Lesson 6
    Rec 2 | MIT 18.085 Computat…
    51:13
  • Lesson 7
    Lec 5 | MIT 18.085 Computat…
    56:12
  • Lesson 8
    Lec 6 | MIT 18.085 Computat…
    50:19
  • Lesson 9
    Lec 7 | MIT 18.085 Computat…
    52:56
  • Lesson 10
    Rec 3 | MIT 18.085 Computat…
    56:13
  • Lesson 11
    Lec 8 | MIT 18.085 Computat…
    55:14
  • Lesson 12
    Lec 9 | MIT 18.085 Computat…
    53:27
  • Lesson 13
    Rec 4 | MIT 18.085 Computat…
    56:18
  • Lesson 14
    Lec 10 | MIT 18.085 Computa…
    54:59
  • Lesson 15
    Lec 11 | MIT 18.085 Computa…
    54:00
  • Lesson 16
    Lec 12 | MIT 18.085 Computa…
    50:28
  • Lesson 17
    Rec 5 | MIT 18.085 Computat…
    54:53
  • Lesson 18
    Lec 13 | MIT 18.085 Computa…
    54:37
  • Lesson 19
    Lec 14 | MIT 18.085 Computa…
    52:30
  • Lesson 20
    Rec 6 | MIT 18.085 Computat…
    54:26
  • Lesson 21
    Lec 15 | MIT 18.085 Computa…
    46:42
  • Lesson 22
    Lec 16 | MIT 18.085 Computa…
    48:41
  • Lesson 23
    Lec 17 | MIT 18.085 Computa…
    54:22
  • Lesson 24
    Rec 7 | MIT 18.085 Computat…
    53:54
  • Lesson 25
    Lec 18 | MIT 18.085 Computa…
    51:36
  • Lesson 26
    Lec 19 | MIT 18.085 Computa…
    52:35
  • Lesson 27
    Lec 20 | MIT 18.085 Computa…
    50:13
  • Lesson 28
    Rec 8 | MIT 18.085 Computat…
    48:08
  • Lesson 29
    Lec 21 | MIT 18.085 Computa…
    53:21
  • Lesson 30
    Lec 22 | MIT 18.085 Computa…
    51:19
  • Lesson 31
    Lec 23 | MIT 18.085 Computa…
    49:53
  • Lesson 32
    Rec 9 | MIT 18.085 Computat…
    51:34
  • Lesson 33
    Lec 24 | MIT 18.085 Computa…
    54:21
  • Lesson 34
    Lec 25 | MIT 18.085 Computa…
    52:22
  • Lesson 35
    Lec 26 | MIT 18.085 Computa…
    51:28
  • Lesson 36
    Rec 10 | MIT 18.085 Computa…
    45:33
  • Lesson 37
    Lec 27 | MIT 18.085 Computa…
    52:33
  • Lesson 38
    Lec 28 | MIT 18.085 Computa…
    49:23
  • Lesson 39
    Rec 11 | MIT 18.085 Computa…
    54:08
  • Lesson 40
    Lec 29 | MIT 18.085 Computa…
    48:41
  • Lesson 41
    Lec 30 | MIT 18.085 Computa…
    50:12
  • Lesson 42
    Lec 31 | MIT 18.085 Computa…
    51:42

  •   Lifetime access to all lessons!
  •   30 days money back guarantee!
  •   Accessible via iPhone, iPad and Android (soon!)