\displaystyle{x}=-{4} \displaystyle{y}=-{1} Explanation: \displaystyle-{3}{x}-{8}{y}={20} ----------- (1) \displaystyle-{5}{x}+{y}={19} -------------(2) \displaystyle\times 8 ...

What you do is correct. I just suggest you to use other letters for the coordinates of the plane that you are looking for. For example you can write your equation as ax+by+cz=0. You found two ...

Yes, your solution to (a) is correct assuming your computations for how to express the elements is correct. Though you don't need to find how to write an arbitrary vector in terms of the basis of W ...

For {\mathbb F}_3 your modulo arithmetic is not quite right: since -2 \equiv 1 \mod 3 you should have y + 2 z = 1, not -y + 2 z = 1. Now, just as you are used to over \mathbb R, you can ...

I believe you are mistaken. The adjoint of the matrix A is the transpose of the matrix A. One major confusion here is that there are two definitions for the word adjoint. The adjoint of a matrix is ...

The normal equation (A^TA)\vec{\beta} = A^T\vec{y} actually gives you two equations: \displaystyle\underbrace{\begin{pmatrix}\sum_{i=1}^{n}x_i^2 & \sum_{i=1}^{n}x_i \\ \sum_{i=1}^{n}x_i & n\end{pmatrix}}_{A^TA} \underbrace{\begin{pmatrix} \beta_1 \\ \beta_0 \end{pmatrix}}_{\vec{\beta}} = \underbrace{\begin{pmatrix} \sum_{i=1}^{n}x_iy_i \\ \sum_{i=1}^{n}y_i \end{pmatrix}}_{A^T\vec{y}} ...