Suppose that $f$ is continuous at $x_0$ and $f$ satisfies $f(x)+f(y)=f(x+y)$. Then how can we prove that $f$ is continuous at $x$ for all $x$? I seems to have problem doing anything with it. Thanks in advance.
Proving that an additive function $f$ is continuous if it is continuous at a single point
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1In fact, you can do more. A solution $f$ to the Cauchy equation $f(x+y)=f(x)+f(y)$ is not of the form $f(x)=mx$ if and only if its graph $\Gamma=\{(x,f(x)):x\in\mathbb{R}\}$ is dense in $\mathbb{R}^{2}$. – 2011-12-24
3 Answers
Fix $a\in \mathbb{R}.$
Then
$\begin{align*}\displaystyle\lim_{x \rightarrow a} f(x) &= \displaystyle\lim_{x \rightarrow x_0} f(x - x_0 + a)\\ &= \displaystyle\lim_{x \rightarrow x_0} [f(x) - f(x_0) + f(a)]\\& = (\displaystyle\lim_{x \rightarrow x_0} f(x)) - f(x_0) + f(a)\\ & = f(x_0) -f(x_0) + f(a)\\ & = f(a). \end{align*}$
It follows $f$ is continuous at $a.$
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0Doesn't this work in any topological group? – 2011-12-25
Let's examine your situation. You have that $\lim_{x\rightarrow a} f(x) = f(a)$ for some $a\in \mathbb{R}$ and that for any $x,y\in \mathbb{R}, f(x)+f(y)=f(x+y)$. You want to prove that for any $c\in \mathbb{R}, \lim_{x\rightarrow c} f(x) = f(c)$. The key step here is to realize that $\lim_{x\rightarrow c} f(x) = \lim_{x\rightarrow a} f(x-a+c)$ because $|(x-a+c)-c| = |x-a|$, so in plain english $x$ is close to $a$ if and only if $x-a+c$ is close to $c$. We can then complete the proof as follows: $\lim_{x\rightarrow a} f(x-a+c) = \lim_{x\rightarrow a} (f(x) + f(c-a)) = f(a) + f(c-a) = f(c)$
Suppose $x=x_0, f(x_0) + f(y) = f(x_0 + y)$ taking limit as $y$ tends to $0$, we get $\lim_{y\rightarrow 0} (f(x_0) + f(y)) = \lim_{y\rightarrow 0} f(x_0 + y)$ From the continuity at $x_0$, we know that RHS of the above equation is $f(x_0)$ which means that $\lim_{y\rightarrow 0} f(y) =0$
Next bit it simple. For any $x,y$ in the domain, $f(x+y)=f(x)+f(y)$ continuity can be established by checking whether $\lim_{y\rightarrow 0} f(x+y) =f(x)$ which is true since $f(x+y)=f(x)+f(y)$ and $\lim_{y\rightarrow 0}f(y)=0$. Hence $f(x)$ is continuous everywhere in the domain.
I'm new here so I don't know how to input equations using latex. Pls bear with it.
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3To format equations in LaTeX, you simply place dollar signs around the expression. For example, \$f(y)\$ gives $f(y)$. Of course, there a more things you can do beyond this to get nicer format. I will edit your answer to put everything into LaTeX, and you can right-click on the expressions and select "view source" to see how to format them in LaTeX. – 2011-12-24