Preview: parametric graphing – Texas Instruments TI-86 User Manual

124

Chapter 9: Parametric Graphing

09PARA.DOC TI-86, Chap 9, US English Bob Fedorisko Revised: 02/13/01 2:27 PM Printed: 02/13/01 3:02 PM Page 124 of 8

09PARA.DOC TI-86, Chap 9, US English Bob Fedorisko Revised: 02/13/01 2:27 PM Printed: 02/13/01 3:02 PM Page 124 of 8

Preview: Parametric Graphing

Graph the parametric equation that describes the path of a ball kicked at an initial speed of
30 meters per second, at an initial angle of 25 degrees with the horizontal (from ground
level). How far does the ball travel? When does it hit the ground? How high does it go?

ᕡ Select

Param

mode from the mode screen.

- m # # #
# " " b

ᕢ Display the equation editor and parametric

equation editor menu. Deselect all
equations and plots (if any are defined).

ᕣ Define the path of the ball as

xt1

and

yt1

in

terms of

t

.

Horizontal: xt1=tv

0

cos(

q)

Vertical: yt1=tv

0

sin(

q)N1à2(gt

2

)

Gravity constant: g=9.8 m

àsec

2

ᕤ Define the vertical component vector as

xt2

and

yt2

and define the horizontal

component vector as

xt3

and

yt3

.

6 &
(/ ' /)

30

& > D

25

- Π( & E
#

30

- e =

D

25

& E T

9

`

8

F

2

- e I

#

0

# - g

1

#

- f

1

#

0

ᕥ Change the graph style of

xt3

à

yt3

to

¼ (thick). Change the graph style of

xt2

à

yt2

and

xt1

/

yt1

to À (path).

. / ) $
$ ) ) $ $ $
) )

In the example, ignore all
forces except gravity. For
initial velocity v

0

and angle

q

,

the position of the ball as a
function of time has
horizontal and vertical
components.