Analyzing Change: Applications Of Derivatives; Relative And Absolute Extreme Points; Finding X-Intercepts Of Slopes Graphs - Texas Instruments TI-84 Plus Manual

Hide thumbs Also See for TI-84 Plus:

Manual book (422 pages)

Manual (37 pages)

Instructions manual (7 pages)

100

101

102

103

104

105

106

107

108

109

110

111

112

113

114

Table Of Contents

115

page of 115

/ 115
Contents
Table of Contents
Bookmarks

Table of Contents

TI-83, TI-83 Plus, TI-84 Plus Guide

Chapter 4

4.2 Relative and Absolute Extreme Points

Your calculator can be very helpful for checking your analytic work when you find optimal

points and points of inflection. When you are not required to show work using derivative

formulas or when an approximation to the exact answer is all that is required, it is a simple

process to use your calculator to find optimal points and inflection points.

FINDING

-INTERCEPTS OF SLOPE GRAPHS

relative maximum or minimum, the slope graph has a horizontal tangent. Where the tangent

line is horizontal, the derivative of the function is zero. Thus, finding where the slope graph

crosses the input axis is the same as finding the input of a relative extreme point.

Consider, for example, the model for Acme Cable Company's revenue for the 26 weeks

after it began a sales campaign, where x is the number of weeks since Acme began sales:

R(x) =

In Example 2 of Section 4.2 of Calculus Concepts, we are first asked to determine when

Acme's revenue peaked during the 26-week interval.

Enter R in the

calculator's derivative or your derivative in the

Turn off

(If you use your derivative, be sure to use one of the methods at

the end of Chapter 3 in this Guide to check that your derivative

and the calculator derivative are the same.)

The statement of the problem indicates that x should be graphed

between 1 and 26. Set this horizontal view, and draw the slope

graph in

with

use in this illustration, reset the window values to

and

Ymax = 3000.

Find the intercepts of the slope graph using the

With the graph on the screen, press

Use

[zero].

►

of, the rightmost x-intercept.

Press

ENTER

to move the cursor near to, but to the right of, the rightmost x-

intercept.

•

Note that the calculator has marked (at the top of the screen) the left bound with a small

triangle. The right bound will be similarly marked. The x-intercept must lie between

these two bound marks. If you incorrectly mark the interval, you may not get an answer.

Analyzing Change:

Applications of Derivatives

−

+ 160x

– 3000x

location of the

list. Enter either the

ZOOM

▲ [ZoomFit].

Redraw the slope graph with

2ND

to move the cursor near to, but still to the left

to mark the location of the left bound. Use

Where the graph of a function has a

+ 24,000x dollars

location.

For a better view to

−

Ymin =

800

GRAPH .

menu.

CALC

TRACE (CALC) 2

►

Table of Contents

Show Quick Links

Hide quick links:

Table of Contents

This manual is also suitable for:

Ti-83 Ti-83 plus

Analyzing Change: Applications Of Derivatives; Relative And Absolute Extreme Points; Finding X-Intercepts Of Slopes Graphs - Texas Instruments TI-84 Plus Manual

4.2 Relative and Absolute Extreme Points

Hide quick links:

Related Manuals for Texas Instruments TI-84 Plus

Related Content for Texas Instruments TI-84 Plus

This manual is also suitable for:

Table of Contents