# Category:Definitions/Differentiable Real-Valued Functions

This category contains definitions related to Differentiable Real-Valued Functions.
Related results can be found in Category:Differentiable Real-Valued Functions.

Let $U$ be an open subset of $\R^n$.

Let $f: U \to \R$ be a real-valued function.

Let $x \in U$.

#### Definition 1

$f$ is differentiable at $x$ if and only if there exist $\alpha_1, \ldots, \alpha_n \in \R$ and a real-valued function $r: U \setminus \set x \to \R$ such that:

$(1):\quad \map f {x + h} = \map f x + \alpha_1 h_1 + \cdots + \alpha_n h_n + \map r h\cdot h$
$(2):\quad \displaystyle \lim_{h \mathop \to 0} \map r h = 0$

#### Definition 2

$f$ is differentiable at $x$ if and only if there exists a linear transformation $T: \R^n \to \R$ and a real-valued function $r: U \setminus \set x \to \R$ such that:

$(1):\quad \map f {x + h} = \map f x + \map T h + \map r h \cdot h$
$(2):\quad \displaystyle \lim_{h \mathop \to 0} \map r h = 0$

## Pages in category "Definitions/Differentiable Real-Valued Functions"

The following 11 pages are in this category, out of 11 total.