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$\begin{bmatrix}a&b\\\\c&d\end{bmatrix} \longrightarrow \begin{bmatrix}a\\\\a\\\\3a+b\end{bmatrix}$

As the kernel maps everything to zero then $a=0$ and $3a+b=0$ so the basis is of the form

$\left\{\begin{bmatrix}0&0\\\\1&0\end{bmatrix},\begin{bmatrix}0&0\\\\0&1\end{bmatrix}\right\}$

However i'm not sure if this is correct so far

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    @icurays1 No I'm not sure where to start for the image2012-12-04

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To find the image of this transformation, I would first break up my image vector into a sum:

$ \left[\begin{array}{c} a\\a\\3a+b \end{array}\right]= \left[\begin{array}{c} a\\a\\3a \end{array}\right]+ \left[\begin{array}{c} 0\\0\\b \end{array}\right]=a\left[\begin{array}{c} 1\\1\\3 \end{array}\right]+ b\left[\begin{array}{c} 0\\0\\1 \end{array}\right] $

You should be able to take it from there (hint: what do you need to show to prove something is a basis?)

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    Yep, you've got it!2012-12-04