I have to show $\frac{x}{1+x^{2}}$ is lipschitz continuous. Hence I have to show
$$|f(x)-f(y)|= \left| \frac{x}{1+x^{2}}- \frac{y}{1+y^{2}} \right| < M|x-y|,$$ for some $M \in \mathbb{R}$. I know I have to use some form of algebraic factorization but I don't see how. Obviously
$$\left| \frac{x}{1+x^{2}}- \frac{y}{1+y^{2}} \right|=\left| \frac{x+xy^{2}-y-yx^{2}}{(1+x^{2})(1+y^{2})} \right|
$$
but how to proceed?
Any tips or hints would be much appreciated.
Best Answer
We have $|f'(x)|=\frac{|1-x^2|}{(1+x^2)^2} \le \frac{1+x^2}{(1+x^2)^2} = \frac{1}{1+x^2} \le 1.$
Now invoke the mean value theorem.