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Calculus 1 : How to find decreasing intervals by graphing functions

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Example Questions

Example Question #1 : Intervals

Find the interval(s) where the following function is decreasing. Graph to double check your answer.

$y=\frac{1}{3}x^3+2x^2-5x-6$

Possible Answers:

Always

Never

$(-\infty,-5) \cup (1,\infty)$

(-5,1)

Correct answer:

(-5,1)

Explanation:

To find when a function is decreasing, you must first take the derivative, then set it equal to 0, and then find between which zero values the function is negative.

First, take the derivative:

y'=x^2+4x-5

Set equal to 0 and solve:

x^2+4x-5=0

(x+5)(x-1)=0

x=-5,1

Now test values on all sides of these to find when the function is negative, and therefore decreasing. I will test the values of -6, 0, and 2.

y'=x^2+4x-5

y'(-6)=(-6)^2+4(-6)-5=7

y'(0)=(0)^2+4(0)-5=-5

y'(2)=(2)^2+4(2)-5=7

Since the only value that is negative is when x=0, the interval is only decreasing on the interval that includes 0. Therefore, our answer is:

(-5,1)

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Example Question #1 : Decreasing Intervals

Find the interval(s) where the following function is decreasing. Graph to double check your answer.

$y=\frac{1}{3}x^3-5x^2+9x+5$

Possible Answers:

Always

Never

$(-\infty,1)\cup (9,\infty)$

(1,9)

Correct answer:

(1,9)

Explanation:

To find when a function is decreasing, you must first take the derivative, then set it equal to 0, and then find between which zero values the function is negative.

First, take the derivative:

y'=x^2-10x+9

Set equal to 0 and solve:

x^2-10x+9=0

(x-9)(x-1)=0

x=1,9

Now test values on all sides of these to find when the function is negative, and therefore decreasing. I will test the values of 0, 2, and 10.

y'=x^2-10x+9

y'(0)=(0)^2-10(0)+9=9

y'(2)=(2)^2-10(2)+9=-7

y'(10)=(10)^2-10(10)+9=9

Since the only value that is negative is when x=0, the interval is only decreasing on the interval that includes 2. Therefore, our answer is:

(1,9)

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Example Question #3 : How To Find Decreasing Intervals By Graphing Functions

Is f(x) increasing or decreasing on the interval [4,7] ?

f(x)=-5x^4+6x^2-5x+3

Possible Answers:

The function is neither increasing nor decreasing on the interval [4,7] .

Increasing because the second derivative is positive on the interval [4,7] .

Decreasing, because the first derivative of f'(x) is negative on the function [4,7] .

Increasing, because the first derivative is positive on the interval [4,7] .

Decreasing, because the first derivative is positive on the interval [4,7] .

Correct answer:

Decreasing, because the first derivative of f'(x) is negative on the function [4,7] .

Explanation:

To find the an increasing or decreasing interval, we need to find out if the first derivative is positive or negative on the given interval. So, find f'(x) by decreasing each exponent by one and multiplying by the original number.

f(x)=-5x^4+6x^2-5x+3

f'(x)=-20x^3+12x-5

Next, we can find f'(4) and f'(7) and see if they are positive or negative.

$f'(4)=-20\cdot4^3+12\cdot4-5=-1237$

$f'(7)=-20\cdot7^3+12\cdot7-5=-6781$

Both are negative, so the slope of the line tangent to f(x) is negative, so f(x) is decreasing.

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Example Question #4 : Intervals

Is f(x) increasing or decreasing on the given interval? How do you know?

f(x)=4x^3-12x^4+6x^5-4x^2+6x^3

[1,3]

Possible Answers:

Decreasing, because f'(x) is negative on the interval [1,3] .

There is not enough information to tell whether f(x) is increasing or decreasing on the interval [1,3] .

Decreasing, because f''(x) is negative on the interval [1,3] .

Increasing, because f'(x) is positive on the interval [1,3] .

Increasing, because f''(x) is positive on the interval [1,3] .

Correct answer:

Increasing, because f'(x) is positive on the interval [1,3] .

Explanation:

Recall that a function is increasing at a point if its first derivative is positive, and a function is decreasing if its first derivative is negative at that point. Therfore, we should start by finding f'(x). However, I will start by combining like terms and putting f(x) in standard form:

f(x)=4x^3-12x^4+6x^5-4x^2+6x^3

f(x)=6x^5-12x^4+10x^3-4x^2

f'(x)=30x^4-48x^3+30x^2-8x

Next, plug in each of our endpoints to see what the sign of f'(x) is.

f'(1)=30-48+30-8=4

$f'(3)=30\cdot 3^4-48\cdot 3^3+30\cdot 3^2-8\cdot 3=1380$

So f'(x) is positive on the given interval, so we know that f(x) is increasing on the given interval.

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Example Question #5 : Intervals

Find the intervals where the following function is decreasing.

$y=\frac{2}{3}x^3 + x^2 -24x +2$

Possible Answers:

$(-\infty,-4)$

$(3,\infty)$

$(-4,\infty)$

$(-\infty,\infty)$

(-4,3)

Correct answer:

(-4,3)

Explanation:

The first step is to find the first derivative.

y'=2x^2 +2x -24

We can factor a out to get

y'=2(x^2+x-12) .

Now we need to solve for when y'=0 to get the critical points. Notice how factoring the 2 made the expression a little easier to simplify.

y'=2(x-3)(x+4)

x=3,-4.

The final step is to try points in all the regions $(-\infty,-4) , (-4,3), (3,\infty)$ to see which range gives a negative value for .

If we plugin in a number from the first range into , i.e , we get a positive number.

From the second range, , we get a negative number.

From the third range, , we get a positive number.

So the second range gives us values where the function is decreasing because is negative during that range, so (-4,3) is the answer.

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Example Question #1 : How To Find Decreasing Intervals By Graphing Functions

Regions problem

On which interval is the function shown in the above graph strictly decreasing?

Possible Answers:

Interval C

Interval D

Interval B

Interval E

Interval A

Correct answer:

Interval E

Explanation:

A function f(x) is strictly decreasing on an inverval if, for any y>x in the interval, f(y)<f(x) (i.e the slope is always less than zero)

Interval E is the only interval on which the function shows this property.

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Example Question #1 : How To Find Decreasing Intervals By Graphing Functions

Let $f(x)=\frac{4}{3}x^3-9x$ .

On which open interval(s) is f(x) decreasing?

Possible Answers:

$\left(-\frac{3}{2}, \frac{3}{2}\right)$

$\left(-\frac{3}{2}, \infty\right)$

There are no open intervals on which the function is decreasing.

$\left(-\infty, \frac{3}{2}\right)$

$\left(-\infty, -\frac{3}{2}\right)\cup\left(\frac{3}{2}, \infty\right)$

Correct answer:

$\left(-\frac{3}{2}, \frac{3}{2}\right)$

Explanation:

f(x) is decreasing on intervals where f'(x)<0 .

First, differentiate f(x) .

f'(x)=4x^2-9

Then, find the values for x for which the derivative is negative by solving

0=4x^2-9

0=(2x+3)(2x-3)

$x=\frac{3}{2}\textrm{ or} \frac{-3}{2}$ .

Next, test the intervals.

$\left(-\infty, -\frac{3}{2}\right)$

$\left(-\frac{3}{2}, \frac{3}{2}\right)$

$\left(\frac{3}{2}, \infty\right)$

Test them by substituting values for x:

$\left(-\infty, -\frac{3}{2}\right)$

Substitute -2,

f'(-2)=4(-2)^2-9=16-9=7

f'(-2)=7>0 .

The function is increasing on this interval since the derivative is positive on this interval.

$\left(-\frac{3}{2}, \frac{3}{2}\right)$

Substitute 0,

f'(0)=4(0)^2-9=0-9=-9

f'(0)=-9<0 .

The function is deecreasing on this interval since the derivative is negative on this interval.

$\left(\frac{3}{2}, \infty\right)$

Substitute 2,

f'(2)=4(2)^2-9=16-9=7

f'(2)=7>0 .

The function is increasing on this interval since the derivative is positive on this interval.

Thus, $\left(-\frac{3}{2}, \frac{3}{2}\right)$ is the only interval on which the function is decreasing.

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Example Question #1 : How To Find Decreasing Intervals By Graphing Functions

On what interval(s) is the function $g(t)=\frac{t}{(t^2+1)^2}$ decreasing?

Possible Answers:

$\left(-\frac{1}{\sqrt{3}}, \frac{1}{\sqrt{3}}\right)$

$\left( \frac{1}{\sqrt{3}},\infty\right)$

(-1,1)

$\left(-\infty, -\frac{1}{\sqrt{3}}\right), \left(\frac{1}{\sqrt{3}}, \infty\right)$

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

Correct answer:

$\left(-\infty, -\frac{1}{\sqrt{3}}\right), \left(\frac{1}{\sqrt{3}}, \infty\right)$

Explanation:

The function is decreasing when the first derivative is negative. We first find when the derivative is zero. To find the derivative, we apply the quotient rule,

$f'(x)=\frac{(t^2+1)1-t2(t^2+1)2t}{(t^2+1)^4}=\frac{(t^2+1)(1-3t^2)}{(t^2+1)^4}$ .

Therefore the derivative is zero at $t=\pm \frac{1}{\sqrt{3}}$ . To find when it is negative plug in test points on each of the three intervals created by these zeros.

For instance,

$f'(-1)=-\frac{1}{4}, f'(0)=1, f'(1)=-\frac{1}{4}$ .

Hence the function is decreasing on

$\left(-\infty, -\frac{1}{\sqrt{3}}\right), \left(\frac{1}{\sqrt{3}}, \infty\right)$ .

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Example Question #1 : How To Find Decreasing Intervals By Graphing Functions

For which values of is the function $f(x)=x^4 -\frac{4}{3}x^3 -12x^2 +3$ decreasing?

Possible Answers:

-3 < x < 0 and $2 < x < \infty$

$-\infty < x < -2$ and 0 < x < 3

This function is never decreasing.

$-\infty < x < -3$ and 0 < x < 2

-2 < x < 0 and $3 < x < \infty$

Correct answer:

$-\infty < x < -2$ and 0 < x < 3

Explanation:

To determine where the function is decreasing, differentiate it:

f'(x)=4x^3 - 4x^2 -24x

What we are interested in are the points where f'(x)=0 . To determine these points, factor the equation:

0=4x(x-3)(x+2) this has solutions at x=-2, 0, 3

This splits the graph into 4 regions, and we can test points in each to determine if f'(x) is greater than or less than 0. If it is less than zero, the function is decreasing.

$- \infty < x < -2: f'(-3)=-72$ negative/decreasing

-2 < x < 0: f'(-1)= 16 positive/increasing

0 < x < 3: f'(1)=-24 negative/decreasing

$3 < x < \infty: f'(4)=96$ positive/increasing

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Example Question #4 : How To Find Decreasing Intervals By Graphing Functions

For which values of is the function $g(x)=\frac{1}{5}x^5-3x^3$ decreasing?

Possible Answers:

-3 < x < 0 and $3 < x < \infty$

$- \infty < x < -3$ and 0 < x < 3

-3 < x < 3 , $x \neq 0$

$- \infty < x < -3$ and $3 < x < \infty$

This function is never decreasing.

Correct answer:

-3 < x < 3 , $x \neq 0$

Explanation:

The function is decreasing where g'(x)<0 . To determine where this is happening, differentiate the function and find where g'(x)=0 . This will split the function into intervals where it is either increasing or decreasing.

g'(x)=x^4 - 9x^2

To determine where this equals zero, factor:

0 = x^2(x^2-9)=x^2(x-3)(x+3) this has solutions for x=-3, 0, 3 .

Test a point in each region to determine if it is increasing or decreasing within these bounds:

$- \infty < x < -3: g'(-4)=112$ positive/increasing

-3 < x < 0: g'(-1)=-8 negative/decreasing

0 < x < 3: g'(1)=-8 negative/decreasing

$3 < x < \infty: g'(4)=112$ positive/increasing

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Calculus 1 : How to find decreasing intervals by graphing functions

Study concepts, example questions & explanations for Calculus 1

All Calculus 1 Resources

Example Questions

Example Question #1 : Intervals

Example Question #1 : Decreasing Intervals

Example Question #3 : How To Find Decreasing Intervals By Graphing Functions

Example Question #4 : Intervals

Example Question #5 : Intervals

Example Question #1 : How To Find Decreasing Intervals By Graphing Functions

Example Question #1 : How To Find Decreasing Intervals By Graphing Functions

Example Question #1 : How To Find Decreasing Intervals By Graphing Functions

Example Question #1 : How To Find Decreasing Intervals By Graphing Functions

Example Question #4 : How To Find Decreasing Intervals By Graphing Functions

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