I. Matrices
-Definition: A matrix is a rectangular array of entries wherein the entry can be a number or a variable.
-Uses: Matrices can be used to solve systems of equations.
-Example of a matrix:
( 1 3 4 5) -> a 1x4 matrix
-Example of solving a system:
This represents the system: x+9y=13, 20x+55y=4y using the properties of matrices, we can reduce the matrix to get x by itself and simultaneously get y by itself. x=-5.432 y=2.048
II. Determinants
-Definition: a determinant is a unique number assigned to only a square matrix. note a square matrix is a matrix with equal number of rows as columns
-Uses: Easier ways of solving systems, Finding the inverses of a matrix
-Example: from the previous matrix delete the last column to get a 2x2 matrix. the determinant of that matrix would be: -125
III. Vector Spaces
-Definition: a vector space is a set on which vector addition and scalar multiplication are defined, and certain axioms hold.
-example: a common vector space is the set of all ordered pairs of real numbers with vector operations is a vector space
IV. Inner Product Spaces
-definition:an inner product of of a vector space associates a real number with a pair of vectors
-example: a simple example that is already defined is a the dot product, which is just the components of a vector multiplies then all added up.
V. Linear Transformations
-Definition: a Linear transformation preserves the operations on a set but alter the starting position of the basis vectors.
-uses: you got me...
VI. Eigen values/vectors
-Eigen values are a large topic with a wide range of uses and nuances. to try to summarize it here would still be a large effort with more text you care for. I'll make a separate post about that later
Are you in 462? I loved that class!
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