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AP Calculus AB : Relationship between the concavity of ƒ and the sign of ƒ''

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Example Questions

Example Question #21 : Relationship Between The Concavity Of ƒ And The Sign Of ƒ''

Determine the intervals on which the function is concave down:

$f(x)=\sin(3x), 0 \leq x \leq \frac{2\pi}{3}$

Possible Answers:

$(0, \frac{\pi}{3})$

$(\frac{\pi}{3}, \frac{2\pi}{3})$

$(-\infty, \infty)$

None of the other answers

Correct answer:

$(0, \frac{\pi}{3})$

Explanation:

To determine the intervals on which the function is concave down, we must determine the intervals on which the function's second derivative is negative.

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

$f'(x)=3\cos(3x)$

$f''(x)=-9\sin(3x)$

which was found using the following rules:

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

$\frac{\mathrm{d} }{\mathrm{d} x} \cos(x)=-\sin(x)$
Next, we must find the values at which the second derivative is equal to zero:

$-9\sin(3x)=0$

$x=0, \frac{\pi}{3}, \frac{2\pi}{3}$

Using these values, we now create intervals on which to evaluate the sign of the second derivative:

$(0, \frac{\pi}{3}), (\frac{\pi}{3}, \frac{2\pi}{3})$

Notice how 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, and on the second interval, the second derivative is positive. Thus, the function is concave down on the first interval, $(0, \frac{\pi}{3})$ .

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Example Question #21 : Relationship Between The Concavity Of ƒ And The Sign Of ƒ''

Determine the intervals on which the function is concave up:

$f=\frac{x^5}{20}-4x^2$

Possible Answers:

$(-\infty, 2)$

(-2,2)

$(2, \infty)$

$(-\infty, -2)$

Correct answer:

$(2, \infty)$

Explanation:

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

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

$f'=\frac{x^4}{4}-8x$

f''=x^3-8

which was found using the following rules:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$ , $\frac{\mathrm{d} }{\mathrm{d} x} ax=a$

Next, we must find the values at which the second derivative is equal to zero:

x^3-8=0

x=2

Using this value, we now create intervals on which to evaluate the sign of the second derivative:

$(-\infty, 2), (2, \infty)$

Notice how at the bounds of the intervals, the second derivative is neither positive nor negative.

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Example Question #22 : Second Derivatives

Determine the intervals on which the following function is concave up:

$f(x)= \frac{x^4}{12}+\frac{x^3}{2}-2x^2$

Possible Answers:

(-4, 1)

$(1, \infty)$

$(-\infty, -4)\cup(1, \infty)$

$(-\infty, -4)$

Correct answer:

$(-\infty, -4)\cup(1, \infty)$

Explanation:

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

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

$f'(x)=\frac{x^3}{3}+\frac{3x^2}{2}-4x$

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

which was found using the following rules:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}, \frac{\mathrm{d} }{\mathrm{d} x}ax=a$

Next, we must find the values at which the second derivative is equal to zero

x^2+3x-4=0

(x-1)(x+4)=0

x=1, -4

Using these values, we now create intervals on which to evaluate the sign of the second derivative:

$(-\infty, -4), (-4, 1), (1, \infty)$

Notice how at the bounds of the intervals, the second derivative is neither positive nor negative.

Evaluating the sign of the second derivative 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 positive, on the second interval, the second derivative is negative, and on the third interval, the second derivative is positive. Thus, the intervals on which the function is concave up are $(-\infty, -4)\cup(1, \infty)$ .

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Example Question #23 : Second Derivatives

Determine the intervals on which the function is concave down:

$f=\frac{2x^6}{30}-\frac{5x^4}{3}+9x^2$

Possible Answers:

$(-\infty, -3)\cup(-1, 1)\cup(1, \infty)$

$(-3, -1)\cup(1, 3)$

(-3, -1)

(1, 3)

Correct answer:

$(-3, -1)\cup(1, 3)$

Explanation:

To determine the intervals on which the function is concave down, we must determine the intervals on which the function's second derivative is negative.

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

$f'=\frac{2x^5}{5}-\frac{20x^3}{3}+18x$

f''=2x^4-20x^2+18

which was found using the following rules:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$ , $\frac{\mathrm{d} }{\mathrm{d} x} ax=a$

Next, we must find the values at which the second derivative is equal to zero:

2x^4-20x^2+18=0

(2x^2-18)(x^2-1)=0

$x=\pm1, \pm3$

Using these values, we now create intervals on which to evaluate the sign of the second derivative:

$(-\infty, -3), (-3, -1), (-1, 1), (1, 3), (3, \infty)$

Notice how 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 positive, on the second interval, the second derivative is negative, on the third interval, the second derivative is positive, on the fourth interval, the second derivative is negative, and on the fifth interval, the second derivative is positive. Thus, the function is concave down on $(-3, -1)\cup(1, 3)$ .

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Example Question #24 : Second Derivatives

Determine the intervals on which the function is concave up:

$f=\frac{x^4}{6}-25x^2$

Possible Answers:

$(-\infty, -5)$

(-5, 5)

$(-\infty, -5)\cup(5, \infty)$

$(5, \infty)$

Correct answer:

$(-\infty, -5)\cup(5, \infty)$

Explanation:

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

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

$f'=\frac{2x^3}{3}-50x$

f''=2x^2-50

which was found using the following rules:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$ , $\frac{\mathrm{d} }{\mathrm{d} x} ax=a$

Next, we must find the values at which the second derivative is equal to zero:

2x^2-50=0

$x=\pm 5$

Using these values, we now create intervals on which to evaluate the sign of the second derivative:

$(-\infty, -5), (-5, 5), (5, \infty)$

Notice how 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 positive, on the second interval, the second derivative is negative, and on the third interval, the second derivative is positive. Therefore, the function is concave up on $(-\infty, -5)\cup(5, \infty)$ .

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Example Question #25 : Second Derivatives

Explain whether f(x) is concave up or concave down when x=1 , and choose the correct explanation for its behavior.

f(x)=16e^x+12x^6-48x+13

Possible Answers:

f(x) is concave up, because f''(1)<0

f(x) is concave down, because f''(1)<0

f(x) is concave down, because f''(1)>0

f(x) is concave up, because f''(1)>0

Correct answer:

f(x) is concave up, because f''(1)>0

Explanation:

Explain whether f(x) is concave up or concave down when x=1 , and choose the correct explanation for its behavior.

f(x)=16e^x+12x^6-48x+13

To determine concavity, we need to find the second derivative of our function. Then, we will plug in the given value of x and see what the sign is. If f" is positive at the point, then we have a concave up curve. If it is negative, then we have concave down. If f" is zero at the point, then we have a point of inflection.

To find our derivatives, we need to recall two rules.

$\frac{dy}{dx}e^x=e^x$

And

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

Using these two rules, we can find the derivative of f(x).

Our first term can be derived using our first rule. The derivative of e to the x is just e to the x.

This means that our first term will remain 16e to x.

For our other three terms, we follow the second rule. We will decrease each term's exponent by 1, and then multiply the coefficient by the old exponent.

$f'(x)=16e^x+(6)12x^{6-1}-(1)48x^{1-1}$

Notice that the 13 will drop out. It is a constant term, and as such when we multiply it by it's original exponent (0) it wil be reduced to zero as well.

Clean up the above to get:

$f'(x)=16e^x+72x^{5}-48$

Using those same to rules, repeat the process to get our second derivative.

$f''(x)=16e^x+(5)72x^{4}=16e^x+360x^4$

So with our second derivative, plug in 1 and find the sign.

f''(x)=16e^x+360x^4

$f''(1)=16e^1+360(1)^4=403.49\approx 403$

We get a positive result, so our function is concave up.

So, we can say that f(x) is concave up, because f''(1)>0

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Example Question #21 : Second Derivatives

Determine the intervals on which the function is concave up:

$f=\frac{x^7}{42}-\frac{x^5}{20}-\frac{x^3}{6}+\frac{x^2}{2}$

Possible Answers:

$(-\infty, -1)\cup(1, \infty)$

$(-\infty, -1)$

$(1,\infty)$

(-1,1)

Correct answer:

(-1,1)

Explanation:

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

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

$f'=\frac{x^6}{6}-\frac{x^4}{4}-\frac{x^2}{2}+x$

f''=x^5-x^3-x^2+1

which was found using the following rules:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$ , $\frac{\mathrm{d} }{\mathrm{d} x} ax=a$

Next, we must find the values at which the second derivative is equal to zero:

x^5-x^3-x^2+1=0

(x^3-1)(x^2-1)=0

x=-1, 1

Using these values, we now create intervals on which to evaluate the sign of the second derivative:

$(-\infty, -1), (-1, 1), (1, \infty)$

Notice how 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, on the second interval, the second derivative is positive, and on the third interval, the second derivative is negative. So, the function is concave up on (-1,1) .

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AP Calculus AB : Relationship between the concavity of ƒ and the sign of ƒ''

Study concepts, example questions & explanations for AP Calculus AB

All AP Calculus AB Resources

Example Questions

Example Question #21 : Relationship Between The Concavity Of ƒ And The Sign Of ƒ''

Example Question #21 : Relationship Between The Concavity Of ƒ And The Sign Of ƒ''

Example Question #22 : Second Derivatives

Example Question #23 : Second Derivatives

Example Question #24 : Second Derivatives

Example Question #25 : Second Derivatives

Example Question #21 : Second Derivatives

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