This course is all about matrices, and concisely covers the linear algebra that an engineer should know. The mathematics in this course is presented at the level of an advanced high school student, but it is recommended that students take this course after completing a university-level single variable calculus course. There are no derivatives or integrals involved, but students are expected to have a basic level of mathematical maturity. Despite this, anyone interested in learning the basics of matrix algebra is welcome to join.
Matrix Algebra for Engineers
Matrix Algebra for Engineers
This course is part of Mathematics for Engineers Specialization
Instructor: Jeffrey R. Chasnov
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Gain insight into a topic and learn the fundamentals.
4.9
(4,445 reviews)
Beginner level
No prior experience required
Flexible schedule
Approx. 19 hours
Learn at your own pace
96%
Most learners liked this course
What you'll learn
Matrices
Systems of Linear Equations
Vector Spaces
Eigenvalues and eigenvectors
Skills you'll gain
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Assessments
21 assignments
Taught in English
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This course is part of the Mathematics for Engineers Specialization
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There are 4 modules in this course
Matrices are rectangular arrays of numbers, symbols, or expressions, arranged in rows and columns. We define matrices and show how to add and multiply them, define some special matrices such as the identity matrix and the zero matrix, learn about the transpose and inverse of a matrix, and discuss orthogonal and permutation matrices.
What's included
10 videos27 readings6 assignments
A system of linear equations can be written in matrix form, and can be solved using Gaussian elimination. We learn how to bring a matrix to reduced row echelon form, which can be used to compute the matrix inverse. We also learn how to find the LU decomposition of a matrix, and how this decomposition can be used to efficiently solve a system of linear equations with changing right-hand sides.
What's included
7 videos6 readings4 assignments
A vector space consists of a set of vectors and a set of scalars that is closed under vector addition and scalar multiplication and that satisfies the usual rules of arithmetic. We learn some of the vocabulary and phrases of linear algebra, such as linear independence, span, basis and dimension. We learn about the four fundamental subspaces of a matrix, the Gram-Schmidt process, orthogonal projection, and the matrix formulation of the least-squares problem of drawing a straight line to fit noisy data.
What's included
13 videos14 readings6 assignments
An eigenvector of a matrix is a nonzero column vector that when multiplied by the matrix is only multiplied by a scalar (called the eigenvalue). We learn about the eigenvalue problem and how to use determinants to find the eigenvalues of a matrix. We learn how to compute determinants using the Laplace expansion, the Leibniz formula, and by row or column elimination. We also learn how to diagonalize a matrix using its eigenvalues and eigenvectors, and how this can be used to easily calculate a matrix raised to a power.
What's included
13 videos20 readings5 assignments
Instructor
Instructor ratings
4.8 (1,446 ratings)Top Instructor
The Hong Kong University of Science and Technology
16 Courses219,474 learners
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Showing 3 of 4445
MS
5
Reviewed on Jun 8, 2020
An excellent course to strengthen the concepts! The course covers most of the important topics in matrix algebra and the videos help in understanding the concepts in an easier way!
ZS
5
Reviewed on Sep 8, 2024
Beneficial course in the study of linear algebra. Vital concepts of matrices, character equations, vector spaces, sub-spaces, and other exciting topics. BIG THANKS, Prof Chasnov!
AA
5
Reviewed on Apr 16, 2022
I found the explanations of prof Chesnoff very simple and informative. I understood much better the concepts of eigenvalues and vector spaces after chesnoffs' explanations!!!
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