4.3 Matrix of Linear Transformations y RS T R ′S ′ T ′ x.

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Presentation transcript:

4.3 Matrix of Linear Transformations y RS T R ′S ′ T ′ x

Example 2 Find a matrix B that represents a linear transformation from T(f) = f ’ + f ” from P 2 to P 2 with respect to the standard basis Β =(1, x, x 2 )

Example 2 T(f) = f ’ + f ”

Similar matrices Had we used a different basis, we could describe this same transformation using that basis. Two matrices that describe the same transformation with regard to a different basis are called similar matrices and are related by the formula SAS -1 = B In this formula A is similar to B

An Application Write a matrix that will find the 2 nd derivative of a polynomial of degree 3 or lower. Use this matrix to find the 2 nd derivative of x 3 + 2x 2 + 4x +1

Application solution Start with a basis: 1,x,x 2,x 3 Find the second derivative of each of the elements of the basis. Write the answer in terms of coordinates of the basis

Application part B Use matrix multiplication to find the second derivative of x 3 + 2x 2 + 4x +1

Application part B Multiply the coordinate matrix times the matrix that represents x 3 + 2x 2 + 4x +1 in terms of our basis 1,x,x 2,x = y ” =6x + 4

A Matrix of transformation

Forming a Matrix of transformation

Example 3

Solution to 3a

Solution to 3b Because there is an invertible matrix that describes the transformation T we call T an isomorphism

Problem 6 Find the matrix of transformation

6 solution What does this mean? If I had the vector as my x it means that I had 1 of the first element, 0 of the second and 1 of the 3 rd Or the matrix 1 1 and ran it through the transformation I would get 0 1 The matrix 1 3 using the answer from above as A as x 0 3 yields which are coordinates for the answer [ ]

Homework p odd lim sin(x) = 6 n --> ∞ n Proof: cancel the n in the numerator and denominator.

Example 1 Express using coordinates

Example 1 Solution

Example 4

Solution to example 4 a

Solution to example 4b

Solution to 4 c

Example 6

Example 6 solution

Why are similar matrices related by B = S -1 AS Note: start at the lower left hand corner of the diagram and move to the upper right hand corner by each direction