 # Quick Answer: Are All Polynomial Functions Differentiable?

## Are all continuous functions differentiable?

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In particular, any differentiable function must be continuous at every point in its domain.

The converse does not hold: a continuous function need not be differentiable.

For example, a function with a bend, cusp, or vertical tangent may be continuous, but fails to be differentiable at the location of the anomaly..

## Are power functions differentiable everywhere?

These include polynomial, rational, trigonometric, exponential, and logarithmic functions, which in fact are differentiable everywhere on their domain. Of the power functions, which have the form f(x) = xa for some a ∈ R, only have points for which they are not differentiable for 0

## Which functions are not differentiable?

A function which jumps is not differentiable at the jump nor is one which has a cusp, like |x| has at x = 0. Generally the most common forms of non-differentiable behavior involve a function going to infinity at x, or having a jump or cusp at x.

## What is the difference between continuous and differentiable?

A continuous function is a function whose graph is a single unbroken curve. A discontinuous function then is a function that isn’t continuous. A function is differentiable if it has a derivative. You can think of a derivative of a function as its slope.

## Can a function be differentiable and not continuous?

When a function is differentiable it is also continuous. But a function can be continuous but not differentiable. For example the absolute value function is actually continuous (though not differentiable) at x=0.

## How do you know if a function is not differentiable?

We can say that f is not differentiable for any value of x where a tangent cannot ‘exist’ or the tangent exists but is vertical (vertical line has undefined slope, hence undefined derivative).

## How do you know if a function is differentiable on an interval?

denoted by R f ′ (c), are finite and equal. (ii) The function y = f (x) is said to be differentiable in the closed interval [a, b] if R f ′ (a) and L f ′ (b) exist and f ′ (x) exists for every point of (a, b). 1.

## How do you know if a function is differentiable?

A function is differentiable at a point when there’s a defined derivative at that point. This means that the slope of the tangent line of the points from the left is approaching the same value as the slope of the tangent of the points from the right.

## How do you know if a graph is not differentiable?

If there derivative can’t be found, or if it’s undefined, then the function isn’t differentiable there. So, for example, if the function has an infinitely steep slope at a particular point, and therefore a vertical tangent line there, then the derivative at that point is undefined.

## How do you know if a function is continuous?

If a function f is only defined over a closed interval [c,d] then we say the function is continuous at c if limit(x->c+, f(x)) = f(c). Similarly, we say the function f is continuous at d if limit(x->d-, f(x))= f(d).

## How do you know if a function is continuous on an interval?

A function is said to be continuous on an interval when the function is defined at every point on that interval and undergoes no interruptions, jumps, or breaks. If some function f(x) satisfies these criteria from x=a to x=b, for example, we say that f(x) is continuous on the interval [a, b].

## What is continuous but not differentiable?

In mathematics, the Weierstrass function is an example of a real-valued function that is continuous everywhere but differentiable nowhere. It is an example of a fractal curve. It is named after its discoverer Karl Weierstrass.