Texas Instruments PLUS TI-89 User Manual

194 Chapter 11: Differential Equation Graphing

11DIFFEQ.DOC TI-89/TI-92 Plus: Differential Equation (English) Susan Gullord Revised: 02/23/01 11:04 AM Printed: 02/23/01 2:15 PM Page 194 of 26

9. Return to the Home screen,

and use

BldData

to create a

data variable containing the

Euler

graphing points.

BldData eulerlog

10. Use the Data/Matrix Editor

(

O

6 3

) to create a new

data variable named

errorlog

.

11. In this new data variable,

define the

c1

,

c2

, and

c3

column headers to refer to
data in

rklog

and

eulerlog

.

Also, enter column titles as
shown.

To define a column header,
move the cursor to that
column, press †, type the
reference expression (such
as

rklog[1]

for

c1

), and press

¸.

12. In the Data/Matrix Editor,

press „. Then press ƒ and
define Plot 1 for the RK data,
as shown to the right.

13. Define Plot 2 for the Euler

data. Use the values shown
to the right.

Plot Type=xyline
Mark=Cross
x=c1
y=c3

14. Return to the Y= Editor,

press 3, and set

Graph = FUNCTION

.

15. The exact solution to the

differential equation is given
below. Enter it as

y1

.

y1 = (100

ù

e

^(x/10))/(

e

^(x/10)+9)

Note: errorlog lets you
combine the data in rklog
and eulerlog so that you can
view the two sets of data
side by side.

Note: rklog[1] and rklog[2]
refer to column 1 and 2 in
rklog

, respectively. Likewise

with eulerlog[2].

Tip: Scroll through the data
variable to see how the RK
and Euler values differ for
the same time value.

Note: To see how to use
deSolve()

to find this exact,

general solution, refer to
page 196.

c3=
eulerlog[2]

c2=rklog[2]

c1=rklog[1] or
c1=eulerlog[1]

You can use

C

to scroll up to see

Plot 1 and Plot 2.