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Now showing items 1-10 of 14

#### 18.101 Analysis II, Fall 2004

(2004-12)

Continues 18.100, in the direction of manifolds and global analysis. Differentiable maps, inverse and implicit function theorems, n-dimensional Riemann integral, change of variables in multiple integrals, manifolds, ...

#### 18.303 Linear Partial Differential Equations, Fall 2004

(2004-12)

The classical partial differential equations of applied mathematics: diffusion, Laplace/Poisson, and wave equations. Methods of solution, such as separation of variables, Fourier series and transforms, eigenvalue problems. ...

#### 18.306 Advanced Partial Differential Equations with Applications, Spring 2004

(2004-06)

A comprehensive treatment of the theory of partial differential equations (pde) from an applied mathematics perspective. Equilibrium, propagation, diffusion, and other phenomena. Initial and boundary value problems. Transform ...

#### 21H.421 Introduction to Environmental History, Spring 2004

(2004-06)

This seminar provides a historical overview of the interactions between people and their environments. Focusing primarily on the experience of Europeans in the period after Columbus, the subject explores the influence of ...

#### 18.465 Topics in Statistics: Statistical Learning Theory, Spring 2004

(2004-06)

The main goal of this course is to study the generalization ability of a number of popular machine learning algorithms such as boosting, support vector machines and neural networks. Topics include Vapnik-Chervonenkis theory, ...

#### 18.S34 Problem Solving Seminar, Fall 2004

(2004-12)

This course,which is geared toward Freshmen, is an undergraduate seminar on mathematical problem solving. It is intended for students who enjoy solving challenging mathematical problems and who are interested in learning ...

#### 18.310 Principles of Applied Mathematics, Fall 2004

(2004-12)

Principles of Applied Mathematics is a study of illustrative topics in discrete applied mathematics including sorting algorithms, information theory, coding theory, secret codes, generating functions, linear programming, ...

#### 18.336 Numerical Methods of Applied Mathematics II, Spring 2004

(2004-06)

Advanced introduction to applications and theory of numerical methods for solution of differential equations, especially of physically-arising partial differential equations, with emphasis on the fundamental ideas underlying ...

#### 18.152 Introduction to Partial Differential Equations, Fall 2004

(2004-12)

This course analyzes initial and boundary value problems for ordinary differential equations and the wave and heat equation in one space dimension. It also covers the Sturm-Liouville theory and eigenfunction expansions, ...

#### 18.335J Introduction to Numerical Methods, Fall 2004

(2004-12)

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 ...