Apr 28, 2017 · By definition, if x is a point in the domain of a function f, then f is said to be differentiable at x if the derivative f′ (x) exists. Intuitively, this means that the graph of f has a non-vertical tangent …

Mar 3, 2024 · The way I think about differentiability is like this: "Can a function be differentiated at every point?" But that doesn’t really help me, I have been looking for a specific formula I can generally use …

Kind of off-topic but if infinitely differentiable implies differentiable which implies continuous that implies defined is there something stronger than infinitely differentiable?

Oct 26, 2010 · So it would appear that if functions are not differentiable, it can only happen at a finite number of points. In real analysis, this concept of being differentiable everywhere except a finite …

3 A function is differentiable (has a derivative) at point x if the following limit exists: $$ \lim_ {h\to 0} \frac {f (x+h)-f (x)} {h} $$ The first definition is equivalent to this one (because for this limit to exist, the two …

Jan 24, 2015 · A function is said to be differentiable at a point if the limit which defines the derivate exists at that point. However, the function you get as an expression for the derivative itself may not be …

Sep 14, 2014 · Continuous Functions are not Always Differentiable. But can we safely say that if a function f(x) is differentiable within range $(a,b)$ then it is continuous in the interval $[a,b]$ . If so , …

In fact you can show that a differentiable function on an open interval (not necessarily a bounded interval) is Lipschitz continuous if and only if it has a bounded derivative. This is because any …

Aug 10, 2015 · Differentiable but not continuously differentiable. Ask Question Asked 10 years, 6 months ago Modified 5 years, 8 months ago

A function is "differentiable" if it has a derivative. A function is "continuous" if it has no sudden jumps in it. Until today, I thought these were merely two equivalent definitions of the same c...