Difference between revisions of "009A Sample Final 1, Problem 10"
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::<math>f(x)=x^{1/3}(x-8)</math> | ::<math>f(x)=x^{1/3}(x-8)</math> | ||
| − | <span class="exam">defined on the closed, bounded interval <math style="vertical-align: -5px">[-8,8]</math>. | + | <span class="exam">defined on the closed, bounded interval <math style="vertical-align: -5px">[-8,8]</math>. |
| − | <span class="exam">(a) Find all the critical points for <math style="vertical-align: -5px">f(x)</math>. | + | <span class="exam">(a) Find all the critical points for <math style="vertical-align: -5px">f(x)</math>. |
| − | <span class="exam">(b) Determine the absolute maximum and absolute minimum values for <math style="vertical-align: -5px">f(x)</math> on the interval <math style="vertical-align: -5px">[-8,8]</math>. | + | <span class="exam">(b) Determine the absolute maximum and absolute minimum values for <math style="vertical-align: -5px">f(x)</math> on the interval <math style="vertical-align: -5px">[-8,8]</math>. |
{| class="mw-collapsible mw-collapsed" style = "text-align:left;" | {| class="mw-collapsible mw-collapsed" style = "text-align:left;" | ||
!Foundations: | !Foundations: | ||
|- | |- | ||
| − | |'''1.''' To find the critical points for <math style="vertical-align: -5px">f(x),</math> we set <math style="vertical-align: -5px">f'(x)=0</math> and solve for <math style="vertical-align: -1px">x.</math> | + | |'''1.''' To find the critical points for <math style="vertical-align: -5px">f(x),</math> we set <math style="vertical-align: -5px">f'(x)=0</math> and solve for <math style="vertical-align: -1px">x.</math> |
|- | |- | ||
| | | | ||
| − | Also, we include the values of <math style="vertical-align: -1px">x</math> where <math style="vertical-align: -5px">f'(x)</math> is undefined. | + | Also, we include the values of <math style="vertical-align: -1px">x</math> where <math style="vertical-align: -5px">f'(x)</math> is undefined. |
|- | |- | ||
| − | |'''2.''' To find the absolute maximum and minimum of <math style="vertical-align: -5px">f(x)</math> on an interval <math>[a,b],</math> | + | |'''2.''' To find the absolute maximum and minimum of <math style="vertical-align: -5px">f(x)</math> on an interval <math>[a,b],</math> |
|- | |- | ||
| | | | ||
| − | we need to compare the <math style="vertical-align: -5px">y</math> values of our critical points with <math style="vertical-align: -5px">f(a)</math> and <math style="vertical-align: -5px">f(b).</math> | + | we need to compare the <math style="vertical-align: -5px">y</math> values of our critical points with <math style="vertical-align: -5px">f(a)</math> and <math style="vertical-align: -5px">f(b).</math> |
|} | |} | ||
| Line 30: | Line 30: | ||
!Step 1: | !Step 1: | ||
|- | |- | ||
| − | |To find the critical points, first we need to find <math style="vertical-align: -5px">f'(x).</math> | + | |To find the critical points, first we need to find <math style="vertical-align: -5px">f'(x).</math> |
|- | |- | ||
|Using the Product Rule, we have | |Using the Product Rule, we have | ||
| Line 45: | Line 45: | ||
!Step 2: | !Step 2: | ||
|- | |- | ||
| − | |Notice <math style="vertical-align: -5px">f'(x)</math> is undefined when <math style="vertical-align: -1px">x=0.</math> | + | |Notice <math style="vertical-align: -5px">f'(x)</math> is undefined when <math style="vertical-align: -1px">x=0.</math> |
|- | |- | ||
| − | |Now, we need to set <math style="vertical-align: -5px">f'(x)=0.</math> | + | |Now, we need to set <math style="vertical-align: -5px">f'(x)=0.</math> |
|- | |- | ||
|So, we get | |So, we get | ||
| Line 54: | Line 54: | ||
<math>-x^{\frac{1}{3}}\,=\,\frac{x-8}{3x^{\frac{2}{3}}}.</math> | <math>-x^{\frac{1}{3}}\,=\,\frac{x-8}{3x^{\frac{2}{3}}}.</math> | ||
|- | |- | ||
| − | |We cross multiply to get <math style="vertical-align: 1px">-3x=x-8.</math> | + | |We cross multiply to get <math style="vertical-align: 1px">-3x=x-8.</math> |
|- | |- | ||
| − | |Solving, we get <math style="vertical-align: -1px">x=2.</math> | + | |Solving, we get <math style="vertical-align: -1px">x=2.</math> |
|- | |- | ||
| − | |Thus, the critical points for <math style="vertical-align: -5px">f(x)</math> are <math style="vertical-align: -5px">(0,0)</math> and <math style="vertical-align: -4px">(2,2^{\frac{1}{3}}(-6)).</math> | + | |Thus, the critical points for <math style="vertical-align: -5px">f(x)</math> are <math style="vertical-align: -5px">(0,0)</math> and <math style="vertical-align: -4px">(2,2^{\frac{1}{3}}(-6)).</math> |
|} | |} | ||
| Line 66: | Line 66: | ||
!Step 1: | !Step 1: | ||
|- | |- | ||
| − | |We need to compare the values of <math style="vertical-align: -5px">f(x)</math>& | + | |We need to compare the values of <math style="vertical-align: -5px">f(x)</math> at the critical points and at the endpoints of the interval. |
|- | |- | ||
| − | |Using the equation given, we have <math style="vertical-align: -5px">f(-8)=32</math>& | + | |Using the equation given, we have <math style="vertical-align: -5px">f(-8)=32</math> and <math style="vertical-align: -5px">f(8)=0.</math> |
|} | |} | ||
| Line 74: | Line 74: | ||
!Step 2: | !Step 2: | ||
|- | |- | ||
| − | |Comparing the values in Step 1 with the critical points in | + | |Comparing the values in Step 1 with the critical points in (a), the absolute maximum value for <math style="vertical-align: -5px">f(x)</math> is <math style="vertical-align: -1px">32</math> |
|- | |- | ||
| − | |and the absolute minimum value for <math style="vertical-align: -5px">f(x)</math>& | + | |and the absolute minimum value for <math style="vertical-align: -5px">f(x)</math> is <math style="vertical-align: -5px">2^{\frac{1}{3}}(-6).</math> |
|} | |} | ||
| Line 83: | Line 83: | ||
!Final Answer: | !Final Answer: | ||
|- | |- | ||
| − | | '''(a)''' <math style="vertical-align: -4px">(0,0)</math> and <math style="vertical-align: -4px">(2,2^{\frac{1}{3}}(-6))</math> | + | | '''(a)''' <math style="vertical-align: -4px">(0,0)</math> and <math style="vertical-align: -4px">(2,2^{\frac{1}{3}}(-6))</math> |
|- | |- | ||
| − | | '''(b)''' The absolute minimum value for <math style="vertical-align: -5px">f(x)</math> is <math style="vertical-align: -5px">2^{\frac{1}{3}}(-6).</math> | + | | '''(b)''' The absolute minimum value for <math style="vertical-align: -5px">f(x)</math> is <math style="vertical-align: -5px">2^{\frac{1}{3}}(-6).</math> |
|} | |} | ||
[[009A_Sample_Final_1|'''<u>Return to Sample Exam</u>''']] | [[009A_Sample_Final_1|'''<u>Return to Sample Exam</u>''']] | ||
Revision as of 09:41, 27 February 2017
Consider the following continuous function:
defined on the closed, bounded interval .
![{\displaystyle [-8,8]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/4becc4d98ef5cf1d8c91c1b84fd9af8d5eeb50f1)
(a) Find all the critical points for .
(b) Determine the absolute maximum and absolute minimum values for on the interval .
| Foundations: |
|---|
| 1. To find the critical points for we set and solve for |
|
Also, we include the values of where is undefined. |
| 2. To find the absolute maximum and minimum of on an interval |
|
we need to compare the values of our critical points with and |
![{\displaystyle [a,b],}](https://wikimedia.org/api/rest_v1/media/math/render/svg/2d493b840f8326ba81ff9d95b4edf1effd5f2842)
Solution:
(a)
| Step 1: |
|---|
| To find the critical points, first we need to find |
| Using the Product Rule, we have |
|
|
| Step 2: |
|---|
| Notice is undefined when |
| Now, we need to set |
| So, we get |
|
|
| We cross multiply to get |
| Solving, we get |
| Thus, the critical points for are and |
(b)
| Step 1: |
|---|
| We need to compare the values of at the critical points and at the endpoints of the interval. |
| Using the equation given, we have and |
| Step 2: |
|---|
| Comparing the values in Step 1 with the critical points in (a), the absolute maximum value for is |
| and the absolute minimum value for is |
| Final Answer: |
|---|
| (a) and |
| (b) The absolute minimum value for is |
