Q29E Prove theorem 3 as follows: Give... [FREE SOLUTION]

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Linear Algebra and its Applications

David C. Lay, Steven R. Lay and Judi J. McDonald

$Math Studyset 91影视 Explanations$ Math

5th Edition 路 483 pages

ISBN: 978-03219822384

Chapter 4: Q29E (page 191)

Prove theorem 3 as follows: Given an $m \times n$ matrix A, an element in ${\mathop{\rm Col}\nolimits} A$ has the form $Ax$ for some x in ${\mathbb{R}^n}$. Let $Ax$ and $A{\mathop{\rm w}\nolimits} $ represent any two vectors in ${\mathop{\rm Col}\nolimits} A$.
Explain why the zero vector is in ${\mathop{\rm Col}\nolimits} A$.
Show that the vector $A{\mathop{\rm x}\nolimits} + A{\mathop{\rm w}\nolimits} $ is in ${\mathop{\rm Col}\nolimits} A$.
Given a scalar $c$, show that $c\left( {A{\mathop{\rm x}\nolimits} } \right)$ is in ${\mathop{\rm Col}\nolimits} A$.

Short Answer

Expert verified

a. The zero vector is in ${\mathop{\rm Col}\nolimits} A$.

b. It is proved that the vector $A{\mathop{\rm x}\nolimits} + A{\mathop{\rm w}\nolimits} $ is in ${\mathop{\rm Col}\nolimits} A$.

c. It is proved that $c\left( {A{\mathop{\rm x}\nolimits} } \right)$ is in ${\mathop{\rm Col}\nolimits} A$

Step by step solution

Explain that the zero vector is in ${\mathop{\rm Col}\nolimits} A$

It is given that in an $m \times n$ matrix, an element in ${\mathop{\rm Col}\nolimits} A$ has the form $A{\mathop{\rm x}\nolimits} $ for some x in ${\mathbb{R}^n}$.

Thezero vector is in ${\mathop{\rm Col}\nolimits} A$ because of the equation $A0 = 0$.

Thus, the zero vector is in ${\mathop{\rm Col}\nolimits} A$.

Show that the vector \(A{\mathop{\rm x}\nolimits} + A{\mathop{\rm

It is easy to find vectors in ${\mathop{\rm Col}\nolimits} A$. Thecolumnsof A are displayed; others are formed from them.

The vector $A{\mathop{\rm x}\nolimits} + A{\mathop{\rm w}\nolimits} $ is in ${\mathop{\rm Col}\nolimits} A$ because$A{\mathop{\rm x}\nolimits} + A{\mathop{\rm w}\nolimits} = A\left( {{\mathop{\rm x}\nolimits} + {\mathop{\rm w}\nolimits} } \right)$.

Thus, it is proved that the vector $A{\mathop{\rm x}\nolimits} + A{\mathop{\rm w}\nolimits} $ is in ${\mathop{\rm Col}\nolimits} A$.

Show that $c\left( {A{\mathop{\rm x}\nolimits} } \right)$ is in ${\mathop{\rm Col}\nolimits} A$

The vector $c\left( {A{\mathop{\rm x}\nolimits} } \right)$ is in ${\mathop{\rm Col}\nolimits} A$ because $c\left( {A{\mathop{\rm x}\nolimits} } \right) = A\left( {c{\mathop{\rm x}\nolimits} } \right)$.

Thus, it is proved that $c\left( {A{\mathop{\rm x}\nolimits} } \right)$ is in ${\mathop{\rm Col}\nolimits} A$.

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Short Answer

Step by step solution

Explain that the zero vector is in \({\mathop{\rm Col}\nolimits} A\)

Show that the vector \(A{\mathop{\rm x}\nolimits} + A{\mathop{\rm

Show that \(c\left( {A{\mathop{\rm x}\nolimits} } \right)\) is in \({\mathop{\rm Col}\nolimits} A\)

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