Recall that Pn is the vector space of polynomials p(x) of degree at most n with real coefficients. Let H P₂ P2 be given by H(p(x)) = p(x + 1) + - [² p(x)dx. (i) Show that H is a linear transformation. (ii) Find the matrix A of H with respect to the basis S = {1, x, x²} of P₂. (iii) Show that S' {1, 2x − 3, 3x² – 13} is a basis of P2. (iv) Find the matrix A' of H with respect to S'. (v) Find the transition matrix P from S to S'. (vi) Verify that A' = P-¹AP. [Better to check that PA' = AP.]

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
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Recall that Pn is the vector space of polynomials p(x) of degree at most n with real coefficients.
: P2
P₂ P2 be given by
→
Let H
1
H(p(x)) = p(x + 1) + √" p(x)da.
(i) Show that H is a linear transformation.
(ii) Find the matrix A of H with respect to the basis S = {1, x, x²} of P2.
(iii) Show that S′ = {1, 2x − 3, 3x² – 13} is a basis of P2.
(iv) Find the matrix A' of H with respect to S'.
(v) Find the transition matrix P from S to S'.
(vi) Verify that A' = P-¹AP. [Better to check that PA' = AP.]
Transcribed Image Text:Recall that Pn is the vector space of polynomials p(x) of degree at most n with real coefficients. : P2 P₂ P2 be given by → Let H 1 H(p(x)) = p(x + 1) + √" p(x)da. (i) Show that H is a linear transformation. (ii) Find the matrix A of H with respect to the basis S = {1, x, x²} of P2. (iii) Show that S′ = {1, 2x − 3, 3x² – 13} is a basis of P2. (iv) Find the matrix A' of H with respect to S'. (v) Find the transition matrix P from S to S'. (vi) Verify that A' = P-¹AP. [Better to check that PA' = AP.]
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