Inverse of Strictly Increasing Strictly Concave Real Function is Strictly Convex

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Let $f$ be a real function which is strictly concave on the open interval $I$.

Let $J = f \left[{I}\right]$.

If $f$ be strictly increasing on $I$, then $f^{-1}$ is strictly convex on $J$.


Let $X = f \left({x}\right) \in J, Y = f \left({y}\right) \in J$.

From the definition of Strictly concave:

$\forall \alpha, \beta \in \R_{>0}, \alpha + \beta = 1: f \left({\alpha x + \beta y}\right) > \alpha f \left({x}\right) + \beta f \left({y}\right)$

Let $f$ be strictly increasing on $I$.

From Inverse of Strictly Monotone Function, it follows that $f^{-1}$ is strictly increasing on $J$.


$\alpha f^{-1} \left({X}\right) + \beta f^{-1} \left({Y}\right) = \alpha x + \beta y > f^{-1} \left({\alpha X + \beta Y}\right)$

Hence $f^{-1}$ is strictly convex on $J$.


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