4.6: End-of-Chapter Materials

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Here are the expected materials to supplement the chapter. Since there is R code in this chapter, I am including an explanation of several helpful R functions.

R Functions

In this chapter, we were introduced to a couple R functions that will be useful in the future. These are listed here.

Mathematics

%*%
This multiplies two matrices in \R. Thus, running the command A%*%B will return the matrix product AB. Be careful: A*B returns the Hadamard product, which is rarely what is needed.
c()
This combines the several scalar values into a single vector of values.
matrix()
This function creates a matrix from the given vector. The first slot belongs to the values in the matrix. After that is the number of rows (or columns) and whether you are entering the number by rows or by columns.
solve(m)
This calculates the usual inverse of the provided matrix m.
t(m)
This calculates the transpose of the provided matrix m.

Exercises

I left many things as exercises for you. Here they are. You should be able to prove any and all of them using your prior knowledge of mathematics (matrices and calculus).

Prove that \( V[ \mathbf{Y} | \mathbf{XB}] = \sigma^2 \mathbf{I} \).
Let \(\mathbf{A}\) be any full column rank matrix. Prove that \(\mathbf{A}^\prime \mathbf{A}\) is symmetric. Prove that its inverse is symmetric.
Prove that the vectors \( \mathbf{\hat{Y}} \) and \( \mathbf{E} \) are orthogonal.

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