Definition:Pointwise Maximum of Mappings/Real-Valued Functions

Definition
Let $X$ be a set, and let $f, g: X \to \R$ be real-valued functions.

Let $\max$ be the max operation on $\R$ (Ordering on Real Numbers is Total Ordering ensures it is in fact defined).

Then the pointwise maximum of $f$ and $g$, denoted $\max \left({f, g}\right)$, is defined by:


 * $\max \left({f, g}\right): X \to \R: \max \left({f, g}\right) \, \left({x}\right) := \max \left({f \left({x}\right), g \left({x}\right)}\right)$

Pointwise maximum thence is an instance of a pointwise operation on real-valued functions.

Also see

 * Pointwise Minimum of Real-Valued Functions, an analogous notion tied to the min operation
 * Pointwise Operation on Real-Valued Functions for more operations on real-valued functions
 * Pointwise Maximum of Mappings for the pointwise maximum of more general mappings