Texas Instruments PLUS TI-89 User Manual

504 Appendix A: Functions and Instructions

8992APPA.DOC TI-89 / TI-92 Plus: Appendix A (US English) Susan Gullord Revised: 02/23/01 1:48 PM Printed: 02/23/01 2:21 PM Page 504 of 132

For the

EXACT

setting of the

Exact/Approx

mode,

portions that cannot be solved are returned as
an implicit equation or inequality.

exact(solve((xì a)e^(x)=ë xù

(xì a),x)) ¸

e

x

+ x = 0 or x = a

Use the “|” operator to restrict the solution
interval and/or other variables that occur in the
equation or inequality. When you find a solution
in one interval, you can use the inequality
operators to exclude that interval from
subsequent searches.

In Radian angle mode:

solve(tan(x)=1/x,x)|x>0 and x<1
¸

x =.860...

false

is returned when no real solutions are

found.

true

is returned if

solve()

can determine

that any finite real value of

var

satisfies the

equation or inequality.

solve(x=x+1,x) ¸

false

solve(x=x,x) ¸

true

Since

solve()

always returns a Boolean result,

you can use “and,” “or,” and “not” to combine
results from

solve()

with each other or with

other Boolean expressions.

2xì 1

1 and solve(x^2ƒ9,x) ¸

x

 1 and x ƒ ë 3

Solutions might contain a unique new
undefined variable of the form @

n

j

with j being

an integer in the interval 1–255. Such variables
designate an arbitrary integer.

In Radian angle mode:

solve(sin(x)=0,x) ¸ x = @n1ø

p

In real mode, fractional powers having odd
denominators denote only the real branch.
Otherwise, multiple branched expressions such
as fractional powers, logarithms, and inverse
trigonometric functions denote only the
principal branch. Consequently,

solve()

produces only solutions corresponding to that
one real or principal branch.

Note:

See also

cSolve()

,

cZeros()

,

nSolve()

, and

zeros()

.

solve(x^(1/3)=ë 1,x) ¸

x = ë 1

solve(

‡(x)=ë 2,x) ¸

false

solve(ë

‡(x)=ë 2,x) ¸

x = 4

solve(

equation1

and

equation2

[and

…

], {

varOrGuess1

,

varOrGuess2 [

,

… ]

})

⇒

Boolean expression

Returns candidate real solutions to the
simultaneous algebraic equations, where
each

varOrGuess

specifies a variable that you

want to solve for.

Optionally, you can specify an initial guess
for a variable. Each

varOrGuess

must have the

form:

variable

– or –

variable

=

real or non-real number

For example,

x

is valid and so is

x=3

.

solve(y=x^2ì 2 and

x+2y=ë 1,{x,y}) ¸

x=1 and y=ë 1

or x=ë 3/2 and y=1/4