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AP Calculus BC : Concavity

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Example Questions

Example Question #1 : Second Derivatives

Over which of the following intervals is the following function concave upward?

$f(x)=-x^2\ln(x)$

Possible Answers:

{ ${}{x:x<e^{\frac{-3}{2}}}$ }

{ ${}{x:x>e^{\frac{-3}{2}}}$ }

f(x) is never concave upward.

$\left \{ x:x>\ln\frac{3}{2}\right \}$

{ ${}{x:0<x<e^{\frac{-3}{2}}}$ }

Correct answer:

{ ${}{x:0<x<e^{\frac{-3}{2}}}$ }

Explanation:

In order to determine the concavity of a function, we need to examine its second derivative.

First, we will take the derivative of the function by applying the product rule.

$f'(x)=(\ln (x))\cdot\frac{\mathrm{d} [-x^2]}{\mathrm{d} x}+-x^2\cdot\frac{\mathrm{d} [\ln x]}{\mathrm{d} x}$

$=-2x\ln(x)+-x^2(\frac{1}{x})$

$=-2x\ln(x)-x=-x(2\ln x+1)$

We will then take the derivative of the first derivative. Again, we will employ the product rule.

$f''(x)=(2\ln(x)+1)\cdot\frac{\mathrm{d} }{\mathrm{d} x}(-x)+-x\cdot\frac{\mathrm{d} }{\mathrm{d} x}(2\ln(x)+1)$

$=-(2\ln x +1)+-x\cdot\frac{2}{x}=-2\ln x-1-2=-2\ln x-3$

A funciton is concave upward whenever its second derivative is positive. Thus, we must find the interval over which f''(x) is positive.

$-2\ln x -3 > 0$

$\ln x < -\frac{3}{2}$

This will only be true when $x<e^{\frac{-3}{2}}$ . However, keep in mind that the domain of f(x) will include only positive values of x, because lnx is only defined for x > 0.

The answer is { ${}{x:0<x<e^{\frac{-3}{2}}}$ }.

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Example Question #1 : Derivatives

Determine the intervals on which the function is concave up:

$f=4\sin(\frac{x}{2})$

on the interval $0\leq x\leq 4\pi$

Possible Answers:

The function is never concave up

$(0, \infty)$

$(0, 2\pi)$

$(2\pi, 4\pi)$

Correct answer:

$(2\pi, 4\pi)$

Explanation:

To determine the intervals on which the function is concave up, we must find the intervals on which the second derivative of the function is positive.

First, we must find the second derivative of the function:

$f'=2\cos(\frac{x}{2})$

$f''=-\sin(\frac{x}{2})$

The derivatives were found using the following rules:

$\frac{\mathrm{d} }{\mathrm{d} x} f(g(x))=f'(g(x))\cdot g'(x)$ , $\frac{\mathrm{d} }{\mathrm{d} x} \sin(x)=\cos(x)$ , $\frac{\mathrm{d} }{\mathrm{d} x} ax=a$ , $\frac{\mathrm{d} }{\mathrm{d} x} \cos(x)=-\sin(x)$

Next, we find the values on the given interval for which the second derivative is equal to zero:

$-\sin(\frac{x}{2})=0$

$x=0, 2\pi, 4\pi$

We now use these values as bounds for the intervals on which we check the sign of the second derivative:

$(0, 2\pi), (2\pi, 4\pi)$

Note that at the bounds of the intervals, the second derivative is neither positive nor negative.

Evaluating the sign simply by plugging in any value on the given interval into the second derivative function, we find that on the first interval, the second derivative is negative, while on the second interval, the second derivative is positive. Thus, the function is concave up on the second interval, $(2\pi, 4\pi)$ .

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Example Question #1 : Derivatives

Tell whether g(w) is concave up or concave down when w=-3 . How do you know?

g(w)=-13t^3-6e^t-12t^2+32

Possible Answers:

Concave down, because g''(-3)<0

Concave up, because g''(-3)>0

Concave up, because g''(-3)<0

Concave down, because g''(-3)>0

Correct answer:

Concave up, because g''(-3)>0

Explanation:

Tell whether g(w) is concave up or concave down when w=-3 . How do you know?

g(w)=-13t^3-6e^t-12t^2+32

To test for concavity, we need to know the sign of our function's second derivative at the given value.

Let's begin by finding the first derivative. To do so, we need to recall the following:

$1) \frac{d}{dx}x^n=nx^{n-1}$

$2)\frac{d}{dx}e^x=e^x$

Those two rules tell us how to derive functions made up of polynomials and exponential terms.

Apply the rules to get the following.

g(w)=-13t^3-6e^t-12t^2+32

$g'(w)=-(3)13t^{3-1}-(2)12t-6e^t$

$g'(w)=-39t^{2}-24t-6e^t$

Now, do derive again to get the 2nd derivative.

$g'(w)=-39t^{2}-24t-6e^t$

g''(w)=-(2)39t-24-6e^t

g''(w)=-78t-24-6e^t

Now, we are almost there, but we need to find g"(-3)

$g''(-3)=-78(-3)-24-6e^{-3}=234-24-0.2987224\approx209.7013$

So, our second derivative is positive when w=-3. This means our original function is concave up at this point.

Concave up, because g''(-3)>0

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Example Question #1 : Concavity

At which of the following values of is the function

f(x)=x^4-7x^3+18x^2

concave down?

Possible Answers:

$\frac{9}{4}$

$\frac{3}{2}$

$\frac{7}{4}$

$\frac{5}{2}$

Correct answer:

$\frac{7}{4}$

Explanation:

The function is concave down wherever f''(x)<0 , so we compute f''(x) and see where it is negative. We have:

f(x)=x^4-7x^3+18x^2

f'(x)=4x^3-21x^2+36x

f''(x)=12x^2-42x+36 (a parabola, opening upwards)

To find where f''(x) is negative, we first find its zeros by setting f''(x)=0 :

f''(x)=6(2x^2-7x+6)=6(2x-3)(x-2)=0 ,

so f''(x)=0 when x=3/2 or x=2 , and we conclude that f''(x) is negative ( f(x) is concave down) between them. That is, 3/2<x<2 . The only answer choice completely inside this interval (not outside or at the endpoints) is

$x=\frac{7}{4}$ .

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AP Calculus BC : Concavity

Study concepts, example questions & explanations for AP Calculus BC

All AP Calculus BC Resources

Example Questions

Example Question #1 : Second Derivatives

Example Question #1 : Derivatives

Example Question #1 : Derivatives

Example Question #1 : Concavity

All AP Calculus BC Resources

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