Chapter 1 - Linear Equations in Linear Algebra - 1.7 Exercises - Page 62: 21

a. False. b. False. c. True. d. True.

a. Every homogeneous matrix equation has the trivial solution, but not every matrix has linearly independent columns. b. According to the warning beneath Theorem 7, at least one vector in a linearly dependent set must be a linear combination of the others, but it need not be the case that every vector in the set is a linear combination of the others. c. Since the matrix contains more columns than rows, the vectors formed from the columns must be linearly dependent by Theorem 8. d. Since $\vec{x}$ and $\vec{y}$ are linearly independent, neither can be the zero vector, per Theorem 9. When $\vec{z}$ is included in the set, the set becomes linearly dependent, so by Theorem 7, it must be that one of the vectors in $\{\vec{x},\vec{y},\vec{z}\}$ is a linear combination of the preceding vectors. Since $\vec{y}$ is not a multiple of $\vec{x}$, it must be that $\vec{z}$ is a linear combination of $\vec{x}$ and $\vec{y}$. Hence, by the definition of span, $\vec{z}$ is in $Span\{\vec{x},\vec{y}\}$. This line of reasoning directly parallels that given in Example 4.