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$$B = \left(\begin{matrix} 0.4 & 0 & 0 & 0 \\ 0 & 0.4 & 0 & 0 \\ 0 & 0 & 0.4 & 0 \end{matrix}\right)$$

Here, $B \in \mathbb{C}^{3 \times 4}$ where $\mathbb{C}$ is complex field. Let $T = \mathbb{C}^3$ and $e = (0,0,0,1)^t \in \mathbb{C}^4$ and $S = \mathrm{span}(e)$. $T$ and $S$ are vector spaces.

How to show that $\mathrm{range}(B) \subset T$ and can we conclude the similar relation between the null space of $B$ and $S$?

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    i tried to find rank of given matrix B which is 3. i am confused why these two spaces are not equal despite of having same number of rank?2012-05-07
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    also i found null space of B that is coming out to be span{0,0,0,c}where c is constant. so can i conclude that null (B)= S2012-05-07
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    Which two spaces are not equal? Why do you say they are not equal? What is your problem with the nullspace?2012-05-07
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    Note that $X\subset Y$ does not exclude the possibility that $X=Y$, if that's what you're confused about.2012-05-07
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    i am confused with the statement that range(B) is properly enclosed in T?2012-05-07
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    The inclusion is *not* proper. For most authors, $\text{range}(B)\subset T$ means the same thing as $\text{range}(B)\subseteq T$, i.e. that $\text{range}(B)$ is either a proper subset of $T$, or that $\text{range}(B)=T$. In this case, $\text{range}(B)=T$.2012-05-07

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