Problem

(1 point) Find the matrix $A$ of the linear transformation $T(f(t))=8 f^{\prime}(t)+3 f(t)$ from $P_{2}$ to $P_{2}$ with respect to the standard basis for $P_{2},\left\{1, t, t^{2}\right\}$.

Solution

Step 1 :We are given a linear transformation $T(f(t))=8 f^{\prime}(t)+3 f(t)$ from $P_{2}$ to $P_{2}$ and we are asked to find the matrix $A$ of this transformation with respect to the standard basis for $P_{2},\left\{1, t, t^{2}\right\}$.

Step 2 :To find the matrix $A$, we need to apply the transformation $T$ to each of the basis vectors and express the result as a linear combination of the basis vectors. The coefficients of these linear combinations will be the columns of the matrix $A$.

Step 3 :The basis vectors are $1, t, t^{2}$. Let's apply the transformation $T$ to each of these basis vectors.

Step 4 :After applying the transformation $T$ to each of the basis vectors, we express the result as a linear combination of the basis vectors. The coefficients of these linear combinations will be the columns of the matrix $A$.

Step 5 :The matrix $A$ of the linear transformation $T(f(t))=8 f^{\prime}(t)+3 f(t)$ with respect to the standard basis for $P_{2},\left\{1, t, t^{2}\right\}$ is given by the coefficients of the linear combinations of the transformed basis vectors.

Step 6 :Final Answer: The matrix $A$ of the linear transformation is \(\boxed{\begin{bmatrix} 6 & 0 & 2 \\ 16 & 2 & \frac{16}{3} \\ 2 & \frac{32}{3} & \frac{6}{5} \end{bmatrix}}\)

From Solvely APP
Source: https://solvelyapp.com/problems/24137/

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