$ \newcommand{\braket}[1]{\langle #1 \rangle} \newcommand{\abs}[2][]{\left\lvert#2\right\rvert_{\text{#1}}} \newcommand{\ket}[1]{\left\lvert#1 \right.\rangle} \newcommand{\bra}[1]{\langle\left. #1\right\rvert} \newcommand{\braket}[1]{\langle #1 \rangle} \newcommand{\dd}{\text{d}} \newcommand{\dv}[2]{\frac{\dd #1}{\dd #2}} \newcommand{\pdv}[2]{\frac{\partial}{\partial #1}} $
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If $E$ is a $m\times n$ elementrary matrix then $EA$ is the matrix obtained by applying the elementary row operation that defines $E$ to $A$

Let $E$ be a $m\times n$ elementary matrices and $A$ an $n\times m$ matrix. Then $EA$ is the matrix obtained by applying the elementary row operation that defines $E$ to $A$.

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If $E$ is a $m\times n$ elementrary matrix then $EA$ is the matrix obtained by applying the elementary row operation that defines $E$ to $A$

Let $E$ be a $m\times n$ elementary matrices and $A$ an $n\times m$ matrix. Then $EA$ is the matrix obtained by applying the elementary row operation that defines $E$ to $A$.

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FullPage
result
concepts
hypothesis
implications
proof

If $E$ is a $m\times n$ elementrary matrix then $EA$ is the matrix obtained by applying the elementary row operation that defines $E$ to $A$

Let $E$ be a $m\times n$ elementary matrices and $A$ an $n\times m$ matrix. Then $EA$ is the matrix obtained by applying the elementary row operation that defines $E$ to $A$.

Concepts

Coming soon

Hypothesis

Coming soon

Results

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Proof

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If $E$ is a $m\times n$ elementrary matrix then $EA$ is the matrix obtained by applying the elementary row operation that defines $E$ to $A$

Let $E$ be a $m\times n$ elementary matrices and $A$ an $n\times m$ matrix. Then $EA$ is the matrix obtained by applying the elementary row operation that defines $E$ to $A$.

Concepts

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Hypothesis

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Proof

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