how to do this compute the matrix of $$ with respect to the basis $B={1,x,x^2}$
Let $V = mathbb{R}[x]_{le2}$ be the $mathbb{R}-$vector space of polynomials
$f(x) = a_0 + a_1x + a_2x^2$ with real coefficients $a_i$ in $mathbb{R}$, of degree $le2$.
Define,
$$langle f(x),g(x)rangle =int_{-2}^{2}f(x)g(x)dx$$
Compute the matrix of $langle .,.rangle$ with respect to the basis $B = {1, x, x^2}$
linear-algebra
edited Nov 30 at 4:44
Sujit Bhattacharyya
945318
asked Nov 30 at 2:24
vicky
1
add a comment |
Let $V = mathbb{R}[x]_{le2}$ be the $mathbb{R}-$vector space of polynomials
$f(x) = a_0 + a_1x + a_2x^2$ with real coefficients $a_i$ in $mathbb{R}$, of degree $le2$.
Define,
$$langle f(x),g(x)rangle =int_{-2}^{2}f(x)g(x)dx$$
Compute the matrix of $langle .,.rangle$ with respect to the basis $B = {1, x, x^2}$
linear-algebra
edited Nov 30 at 4:44
Sujit Bhattacharyya
945318
asked Nov 30 at 2:24
vicky
1
Welcome to Math.SE! For some basic information about writing mathematics at this site see, e.g., basic help on mathjax notation, mathjax tutorial and quick reference, main meta site math tutorial and equation editing how-to.
– platty
Nov 30 at 2:29
add a comment |
Let $V = mathbb{R}[x]_{le2}$ be the $mathbb{R}-$vector space of polynomials
$f(x) = a_0 + a_1x + a_2x^2$ with real coefficients $a_i$ in $mathbb{R}$, of degree $le2$.
Define,
$$langle f(x),g(x)rangle =int_{-2}^{2}f(x)g(x)dx$$
Compute the matrix of $langle .,.rangle$ with respect to the basis $B = {1, x, x^2}$
linear-algebra
edited Nov 30 at 4:44
Sujit Bhattacharyya
945318
asked Nov 30 at 2:24
vicky
1
Let $V = mathbb{R}[x]_{le2}$ be the $mathbb{R}-$vector space of polynomials
$f(x) = a_0 + a_1x + a_2x^2$ with real coefficients $a_i$ in $mathbb{R}$, of degree $le2$.
Define,
$$langle f(x),g(x)rangle =int_{-2}^{2}f(x)g(x)dx$$
Compute the matrix of $langle .,.rangle$ with respect to the basis $B = {1, x, x^2}$
linear-algebra
linear-algebra
edited Nov 30 at 4:44
Sujit Bhattacharyya
945318
asked Nov 30 at 2:24
vicky
1
edited Nov 30 at 4:44
Sujit Bhattacharyya
945318
asked Nov 30 at 2:24
vicky
1
edited Nov 30 at 4:44
Sujit Bhattacharyya
945318
edited Nov 30 at 4:44
Sujit Bhattacharyya
945318
edited Nov 30 at 4:44
Sujit Bhattacharyya
945318
945318
asked Nov 30 at 2:24
vicky
1
asked Nov 30 at 2:24
vicky
1
asked Nov 30 at 2:24
vicky
1
1
Welcome to Math.SE! For some basic information about writing mathematics at this site see, e.g., basic help on mathjax notation, mathjax tutorial and quick reference, main meta site math tutorial and equation editing how-to.
– platty
Nov 30 at 2:29
add a comment |
Welcome to Math.SE! For some basic information about writing mathematics at this site see, e.g., basic help on mathjax notation, mathjax tutorial and quick reference, main meta site math tutorial and equation editing how-to.
– platty
Nov 30 at 2:29
Welcome to Math.SE! For some basic information about writing mathematics at this site see, e.g., basic help on mathjax notation, mathjax tutorial and quick reference, main meta site math tutorial and equation editing how-to.
– platty
Nov 30 at 2:29
Welcome to Math.SE! For some basic information about writing mathematics at this site see, e.g., basic help on mathjax notation, mathjax tutorial and quick reference, main meta site math tutorial and equation editing how-to.
– platty
Nov 30 at 2:29
add a comment |
1 Answer
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Define the variables $$mathbf a = (a_0,a_1,a_2)^T, mathbf b = (b_0,b_1,b_2)^T, text{ and } P = begin{pmatrix}p_{00} & p_{01} & p_{02} \ p_{10} & p_{11} & p_{12} \ p_{20} & p_{21} & p_{22} end{pmatrix}$$ Also, let $$f(x) = a_0+a_1x+a_2x^2 text{ and } g(x) = b_0+b_1x+b_2x^2$$
Then, $P$ is a matrix for $langlecdot , cdotrangle$ iff
$$ mathbf a^T P mathbf b = langle f(x), g(x)rangle = int_{-2}^2 f(x)g(x)text dx$$
Evaluating the left-hand side gives
$$ mathbf a^T P mathbf b = sumlimits_{i=0}^2sumlimits_{j=0}^2 p_{ij}a_ib_j$$
so the $ij$-th entry of $P$ is the coefficient of $a_ib_j$. Evaluating the right-hand side gives
$$ int_{-2}^2 f(x)g(x)text dx = int_{-2}^2 (a_0+a_1x+a_2x^2)(b_0+b_1x+b_2x^2)text dx \ = 4a_0b_0 + frac{16}{3}a_0b_2 + frac{16}{3}a_1b_1 + frac{16}{3}a_2b_0 + frac{64}{5}a_2b_2$$
Putting this information together, we can deduce the entries of the matrix $P$:
$$ P = begin{pmatrix}4 & 0 & frac{16}{3} \ 0 & frac{16}{3} & 0 \ frac{16}{3} & 0 & frac{64}{5} end{pmatrix} $$
answered Nov 30 at 5:46
AlexanderJ93
6,083723
add a comment |
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1 Answer
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Define the variables $$mathbf a = (a_0,a_1,a_2)^T, mathbf b = (b_0,b_1,b_2)^T, text{ and } P = begin{pmatrix}p_{00} & p_{01} & p_{02} \ p_{10} & p_{11} & p_{12} \ p_{20} & p_{21} & p_{22} end{pmatrix}$$ Also, let $$f(x) = a_0+a_1x+a_2x^2 text{ and } g(x) = b_0+b_1x+b_2x^2$$
Then, $P$ is a matrix for $langlecdot , cdotrangle$ iff
$$ mathbf a^T P mathbf b = langle f(x), g(x)rangle = int_{-2}^2 f(x)g(x)text dx$$
Evaluating the left-hand side gives
$$ mathbf a^T P mathbf b = sumlimits_{i=0}^2sumlimits_{j=0}^2 p_{ij}a_ib_j$$
so the $ij$-th entry of $P$ is the coefficient of $a_ib_j$. Evaluating the right-hand side gives
$$ int_{-2}^2 f(x)g(x)text dx = int_{-2}^2 (a_0+a_1x+a_2x^2)(b_0+b_1x+b_2x^2)text dx \ = 4a_0b_0 + frac{16}{3}a_0b_2 + frac{16}{3}a_1b_1 + frac{16}{3}a_2b_0 + frac{64}{5}a_2b_2$$
Putting this information together, we can deduce the entries of the matrix $P$:
$$ P = begin{pmatrix}4 & 0 & frac{16}{3} \ 0 & frac{16}{3} & 0 \ frac{16}{3} & 0 & frac{64}{5} end{pmatrix} $$
answered Nov 30 at 5:46
AlexanderJ93
6,083723
add a comment |
Define the variables $$mathbf a = (a_0,a_1,a_2)^T, mathbf b = (b_0,b_1,b_2)^T, text{ and } P = begin{pmatrix}p_{00} & p_{01} & p_{02} \ p_{10} & p_{11} & p_{12} \ p_{20} & p_{21} & p_{22} end{pmatrix}$$ Also, let $$f(x) = a_0+a_1x+a_2x^2 text{ and } g(x) = b_0+b_1x+b_2x^2$$
Then, $P$ is a matrix for $langlecdot , cdotrangle$ iff
$$ mathbf a^T P mathbf b = langle f(x), g(x)rangle = int_{-2}^2 f(x)g(x)text dx$$
Evaluating the left-hand side gives
$$ mathbf a^T P mathbf b = sumlimits_{i=0}^2sumlimits_{j=0}^2 p_{ij}a_ib_j$$
so the $ij$-th entry of $P$ is the coefficient of $a_ib_j$. Evaluating the right-hand side gives
$$ int_{-2}^2 f(x)g(x)text dx = int_{-2}^2 (a_0+a_1x+a_2x^2)(b_0+b_1x+b_2x^2)text dx \ = 4a_0b_0 + frac{16}{3}a_0b_2 + frac{16}{3}a_1b_1 + frac{16}{3}a_2b_0 + frac{64}{5}a_2b_2$$
Putting this information together, we can deduce the entries of the matrix $P$:
$$ P = begin{pmatrix}4 & 0 & frac{16}{3} \ 0 & frac{16}{3} & 0 \ frac{16}{3} & 0 & frac{64}{5} end{pmatrix} $$
answered Nov 30 at 5:46
AlexanderJ93
6,083723
add a comment |
Define the variables $$mathbf a = (a_0,a_1,a_2)^T, mathbf b = (b_0,b_1,b_2)^T, text{ and } P = begin{pmatrix}p_{00} & p_{01} & p_{02} \ p_{10} & p_{11} & p_{12} \ p_{20} & p_{21} & p_{22} end{pmatrix}$$ Also, let $$f(x) = a_0+a_1x+a_2x^2 text{ and } g(x) = b_0+b_1x+b_2x^2$$
Then, $P$ is a matrix for $langlecdot , cdotrangle$ iff
$$ mathbf a^T P mathbf b = langle f(x), g(x)rangle = int_{-2}^2 f(x)g(x)text dx$$
Evaluating the left-hand side gives
$$ mathbf a^T P mathbf b = sumlimits_{i=0}^2sumlimits_{j=0}^2 p_{ij}a_ib_j$$
so the $ij$-th entry of $P$ is the coefficient of $a_ib_j$. Evaluating the right-hand side gives
$$ int_{-2}^2 f(x)g(x)text dx = int_{-2}^2 (a_0+a_1x+a_2x^2)(b_0+b_1x+b_2x^2)text dx \ = 4a_0b_0 + frac{16}{3}a_0b_2 + frac{16}{3}a_1b_1 + frac{16}{3}a_2b_0 + frac{64}{5}a_2b_2$$
Putting this information together, we can deduce the entries of the matrix $P$:
$$ P = begin{pmatrix}4 & 0 & frac{16}{3} \ 0 & frac{16}{3} & 0 \ frac{16}{3} & 0 & frac{64}{5} end{pmatrix} $$
answered Nov 30 at 5:46
AlexanderJ93
6,083723
Define the variables $$mathbf a = (a_0,a_1,a_2)^T, mathbf b = (b_0,b_1,b_2)^T, text{ and } P = begin{pmatrix}p_{00} & p_{01} & p_{02} \ p_{10} & p_{11} & p_{12} \ p_{20} & p_{21} & p_{22} end{pmatrix}$$ Also, let $$f(x) = a_0+a_1x+a_2x^2 text{ and } g(x) = b_0+b_1x+b_2x^2$$
Then, $P$ is a matrix for $langlecdot , cdotrangle$ iff
$$ mathbf a^T P mathbf b = langle f(x), g(x)rangle = int_{-2}^2 f(x)g(x)text dx$$
Evaluating the left-hand side gives
$$ mathbf a^T P mathbf b = sumlimits_{i=0}^2sumlimits_{j=0}^2 p_{ij}a_ib_j$$
so the $ij$-th entry of $P$ is the coefficient of $a_ib_j$. Evaluating the right-hand side gives
$$ int_{-2}^2 f(x)g(x)text dx = int_{-2}^2 (a_0+a_1x+a_2x^2)(b_0+b_1x+b_2x^2)text dx \ = 4a_0b_0 + frac{16}{3}a_0b_2 + frac{16}{3}a_1b_1 + frac{16}{3}a_2b_0 + frac{64}{5}a_2b_2$$
Putting this information together, we can deduce the entries of the matrix $P$:
$$ P = begin{pmatrix}4 & 0 & frac{16}{3} \ 0 & frac{16}{3} & 0 \ frac{16}{3} & 0 & frac{64}{5} end{pmatrix} $$
answered Nov 30 at 5:46
AlexanderJ93
6,083723
answered Nov 30 at 5:46
AlexanderJ93
6,083723
answered Nov 30 at 5:46
AlexanderJ93
6,083723
answered Nov 30 at 5:46
AlexanderJ93
6,083723
6,083723
add a comment |
add a comment |
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Welcome to Math.SE! For some basic information about writing mathematics at this site see, e.g., basic help on mathjax notation, mathjax tutorial and quick reference, main meta site math tutorial and equation editing how-to.
– platty
Nov 30 at 2:29