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Title : 2.086 Numerical Computation for Mechanical Engineers (MIT)

Title : 2.086 Numerical Computation for Mechanical Engineers (MIT)

Description : Includes audio/video content: AV special element video. This class introduces elementary programming concepts including variable types, data structures, and flow control. After an introduction to linear algebra and probability, it covers numerical methods relevant to mechanical engineering, including approximation (interpolation, least squares and statistical regression), integration, solution of linear and nonlinear equations, ordinary differential equations, and deterministic and probabilistic approaches. Examples are drawn from mechanical engineering disciplines, in particular from robotics, dynamics, and structural analysis. Assignments require MATLAB® programming.

Description : Includes audio/video content: AV special element video. This class introduces elementary programming concepts including variable types, data structures, and flow control. After an introduction to linear algebra and probability, it covers numerical methods relevant to mechanical engineering, including approximation (interpolation, least squares and statistical regression), integration, solution of linear and nonlinear equations, ordinary differential equations, and deterministic and probabilistic approaches. Examples are drawn from mechanical engineering disciplines, in particular from robotics, dynamics, and structural analysis. Assignments require MATLAB® programming.

Fromsemester : Fall

Fromsemester : Fall

Fromyear : 2014

Fromyear : 2014

Creator :

Creator :

Creator :

Creator :

Date : 2015-07-09T11:38:51+05:00

Date : 2015-07-09T11:38:51+05:00

Relation : 2.086

Relation : 2.086

Language : en-US

Language : en-US

Subject : MATLAB

Subject : MATLAB

Subject : numerical analysis

Subject : numerical analysis

Subject : programming

Subject : programming

Subject : physical modeling

Subject : physical modeling

Subject : calculus

Subject : calculus

Subject : linear algebra

Subject : linear algebra

Subject : Monte Carlo Method

Subject : Monte Carlo Method

Subject : differential equations

Subject : differential equations

Subject : nonlinear systems

Subject : nonlinear systems

Subject : variable types

Subject : variable types

Subject : data structure

Subject : data structure

Subject : flow control

Subject : flow control

Subject : probability

Subject : probability

Subject : statistics

Subject : statistics

Subject : robotics

Subject : robotics