4.1: Xtreme Calculus
This activity is intended to supplement Calculus, Chapter 3, Lesson 2.
ID: 11407
Time Required: 15 minutes
Activity Overview
In this activity, students will explore relative maximums and minimums by drawing tangent lines to a curve and making observations about the slope of the tangent line. This activity uses both the script feature and a program that enables the drawing of tangent lines to be animated.
Topic: Relative Extrema
- Relative Minimum
- Relative Maximum
- Critical Numbers
Teacher Preparation and Notes
- Students will need two files, xtreme1.89t and tanimat2.89p. The xtreme1 script asks the program tanimat2 to run. The program tanimat2 has numerous functions that are not explored in this brief activity.
- Before beginning the activity, review with students the definitions of relative maximum, relative minimum, and critical numbers.
- To download the calculator files, go to http://www.education.ti.com/calculators/downloads/US/Activities/Detail?id=11407 and select main.xtreme1 and main.tanimat2.
Associated Materials
- Student Worksheet: Xtreme Calculus http://www.ck12.org/flexr/chapter/9728
- xtreme1.89t
- tanimat2.89p
Introduction
After transferring the two files xtreme1 and tanimat2, students will run the script by pressing APPS, selecting the Text Editor application, and then opening xtreme1.
Students are instructed to press \begin{align*}F4\end{align*}
Graph 1 – Polynomial
The script sets up the window and defines a polynomial for \begin{align*}y1(x)\end{align*}
Students are instructed to explore 10 slopes. Their goal should be to find the \begin{align*}x-\end{align*}
Students are asked to find the critical numbers of \begin{align*}y1(x)\end{align*}
Solutions
1. \begin{align*}x = -3, -1, 1\end{align*}
2. a relative extreme value
Graph 2 – Cusp
Students are asked to find the critical numbers of \begin{align*}y1(x)\end{align*}
The script leads students in using CAS to confirm that the derivative at a cusp is undefined.
Students are asked what occurs at each critical number of \begin{align*}y1(x)\end{align*}
Solutions
3. \begin{align*}x = 0, 2\end{align*}
4. a relative extreme value
Graph 3 – Cubic
Students are asked to find the critical numbers of \begin{align*}y1(x)\end{align*}
Solutions
5. \begin{align*}x = 1\end{align*}
6. a plateau
7. A relative extreme value doesn’t occur at every critical number. A critical point is only an extrema if the function changes from increasing to decreasing or decreasing to increasing, i.e. when the derivative changes sign.
Graph 4 – Negative Quadratic
Students are asked if relative extrema occur at every critical point.
Students are asked if the slope of the tangent line to the left of a relative maximum is positive, negative, or zero.
Solutions
8. positive
9. negative
Graph 5 – Positive Quadratic
Students are asked if the slope of the tangent line to the left of a relative minimum is positive, negative, or zero.
Students are asked if the slope of the tangent line to the right of a relative minimum is positive, negative, or zero.
This is the end of the script. Press \begin{align*}\forall\end{align*}
Solutions
10. negative
11. positive
Summing It All Up
Students are asked to summarize their findings about critical numbers and local extrema.
Student Solutions
12. relative maximum
13. relative minimum
14. plateau
Extension
Students are asked how many extrema an \begin{align*}n\end{align*}
Solution
15. \begin{align*}n - 1\end{align*}
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