Precise interpretation of the conformable fractional derivative
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Let $\alpha\in\,]0,1[$. We prove that the existence of the conformable fractional derivative $T_{\alpha}f$ of a function $f:[0,\infty[\,\longrightarrow \mathbb{R}$ introduced by Khalil et al. in [R. Khalil, M. Al Horani, A. Yousef, M. Sababheh, A new definition of fractional derivative, J. Comput. Appl. Math. 264 (2014) 65-70] is equivalent to classical differentiability. Precisely the fractional $\alpha$-derivative of $f$ is the pointwise product $T_{\alpha}f(x)=x^{1-\alpha}f^{\prime}(x)$, $x>0$. This simplifies the recent results concerning conformable fractional calculus.
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Remarks about the existence of conformable derivatives and some consequences
Conformable derivatives exist exactly when usual derivatives exist and relate to them via a simple scaling by t to the power 1-alpha.
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