If f is differentiable at a, must f be continuous at a?

Question

Accepted Answer

Welcome back, everyone. If a function k has a derivative at the point C, what can be said about the continuity of K at C? We're given 4 answer choices. A says K is not necessarily continuous at C. B K must be continuous at C. C. K's continuity at C is uncertain, and D K is continuous only if it is also bounded. So essentially what we want to do is determine the continuity of K at X equals C, as long as K is a function of X, right? This is what the problem implies. So, To determine the continuity of KFC we need to recall the relationship between differentiability, so differentiability. And Continuity We first of all have to understand that if a function K has a derivative at the point C, so let's say we have K at point C, we're going to say that if K at C exists. Then K of. X is differentiable at pointy. Or basically at x equals C to be precise, right? So it says if a function k has a derivative at the point C, while it has a derivative based on the context of the problem, and this means that this function is differentiable at point C. Now if the function is differentiable, it also means that it is continuous at that point. This is by Using our rules, so if it is differentiable at X equals c, this means that k. Of X is continuous. Ants X equals C. And that's it. If we know that k is differentiable at C, then K must also be continuous at X equals C. And now looking at the answer choices, we are going to see that the correct answer choice is option B. K must be continuous at point C. Thank you for watching.

If f is differentiable at a, must f be continuous at a?

Key Concepts

Differentiability

Continuity

Relationship Between Differentiability and Continuity

Watch next