1
$\begingroup$

I'm having a little problem in understanding this question...

Let $f \colon D \rightarrow \mathbb{R}$ with $D \subset \mathbb{R}$ and $a \in D'$. If $V$ is a neighbourhood of $a$ and $E= D \cap V$, show that $a \in E'$.

The exercise also asks to show that if $f|_E$ has a limit at the point $a$ then $f$ also has a limit at the point $a$ .

More specifically, I don't understand how to analyze the restricted function...

Thanks the attention!

(This is an exercise of my real analysis list of exercises. I spent a good time trying to do it, but I'm stuck... If anyone could give me a light... I'm studying for my final exam...)

  • 0
    Is that better,@DylanMoreland?2012-06-27

1 Answers 1

2

Expanded, given that apparently it was unclear.

Because $a\in D'$, that means that every neighborhood of $a$ must contain points of $D$ other than $a$. You want to prove that every neighborhood $U$ of $a$ must contain points of $E\cap V$ other than $a$ itself; let $U$ be a neighborhood of $a$. Then $U\cap V$ is also a neighborhood of $a$, so we know that $(U\cap V)\cap D-\{a\}$ is not empty. But $(U\cap V)\cap D = U\cap (V\cap D) = U\cap E$. Hence...

For the second part, let us suppose that $f|_E$ has a limit at $a$, say $r$. This means that for every open set $W$ that contains $r$, there exists an open set $U$ that contains $a$ and such that $f((U\cap E)-\{a\})\subseteq W$. To show that $f$ has a limit at $a$, we need to show that there exists an open set $\mathscr{O}$ that contains $a$ and such that $f((\mathscr{O}\cap D)-\{a\})\subseteq W$.

Fix $W$, an open set containing $r$, and let $U$ be an open set that contains $a$ and such that $f((U\cap E)-\{a\})\subseteq W$. Now let $\mathscr{O} = U\cap \mathrm{int}(V)$, the interior of $V$. This is an open set that contains $a$ (since $U$ is open and contains $a$, and $V$ is a neighborhood of $a$ so its interior contains $a$). Will that work?

  • 0
    @MeAndMath: What you wrote does not even parse, so no. Writing$a$mathematical argument is not cooking pasta: you don't throw$a$lot of words at the wall and hope something sticks. The sentences have to make sense, let alone be logical. Also, "there are points different from $a$ in $E$" does not follow from "$a$ belongs to $E$". Why is $E$ not a singleton? And how are you concluding that $U\cap E$ contains points other than $a$?2012-06-27