I am looking for examples of functions $f:\mathbb{R} \rightarrow \mathbb{R}$ that:
- are differentiable, and
- have discontinuous but bounded derivatives.
I believe that a function satisfying these conditions must also be (globally) Lipschitz continuous.
The only example I know of is $f(x) = \left\{ \begin{array}{c l} x^2\cdot \sin\left(\frac{1}{x}\right) & ,\quad x\neq0\\ 0 & ,\quad x=0 \end{array} \right.$, so examples besides this one would be most helpful.
My question is inspired by having recently proven that if a differentiable function $f$ has a bounded derivative, then $f$ is Lipschitz. A differentiable function with a continuous derivative is also Lipschitz, but requiring $f'$ to be continuous is not necessary for Lipschitz continuity. This exercise made me curious about examples of differentiable functions that meet the bounded derivative requirement but not the (stricter) continuous derivative requirement.
Thanks in advance for any suggestions!
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