Cot(), Coth(), Coth – Texas Instruments TITANIUM TI-89 User Manual

Appendix A: Functions and Instructions

797

cot()

MATH/Trig menu

cot(

expression1

)

⇒

⇒

⇒

⇒

expression

cot(

list1

)

⇒

⇒

⇒

⇒

list

Returns the cotangent of

expression1

or returns a

list of the cotangents of all elements in

list1

.

Note: The result is returned as a degree, gradian
or radian angle, according to the current angle
mode setting.

In Degree angle mode:

cot(45) ¸ 1

In Gradian angle mode:

cot(50) ¸ 1

In Radian angle mode:

cot({1,2.1,3}) ¸

{

1

tan(1)

L.584…

1

tan(3)}

cot

LLLL1

()

MATH/Trig menu

cot

LLLL1

(

expression1

)

⇒

⇒

⇒

⇒

expression

cot

LLLL1

(

list1

)

⇒

⇒

⇒

⇒

list

Returns the angle whose cotangent is

expression1

or returns a list containing the

inverse cotangents of each element of

list1

.

Note: The result is returned as a degree, gradian
or radian angle, according to the current angle
mode setting.

In Degree angle mode:

cot

L

1

(1) ¸

45

In Gradian angle mode:

cot

L

1

(1) ¸

50

In Radian angle mode:

cot

L

1

(1) ¸

p
4

coth()

MATH/Hyperbolic menu

coth(

expression1

)

⇒

⇒

⇒

⇒

expression

cot(

list1

)

⇒

⇒

⇒

⇒

list

Returns the hyperbolic cotangent of

expression1

or returns a list of the hyperbolic cotangents of all
elements of

list1

.

coth(1.2) ¸

1.199…

coth({1,3.2}) ¸

{

1

tanh(1)

1.003…

}

coth

LLLL1

()

MATH/Hyperbolic menu

coth

LLLL1

(

expression1

)

⇒

⇒

⇒

⇒

expression

coth

LLLL1

(

list1

)

⇒

⇒

⇒

⇒

list

Returns the inverse hyperbolic cotangent of

expression1

or returns a list containing the

inverse hyperbolic cotangents of each element of

list1

.

coth

L

1

(3.5) ¸

.293…

coth

L

1

({L2,2.1,6}) ¸

{

L

ln(3)

2

.518… ln(7/5)

2

}

crossP()

MATH/Matrix/Vector ops menu

crossP(

list1

,

list2

)

⇒

⇒

⇒

⇒

list

Returns the cross product of

list1

and

list2

as a list.

list1

and

list2

must have equal dimension, and the

dimension must be either 2 or 3.

crossP({a1,b1},{a2,b2})

¸

{0 0 a1ø b2ì a2ø b1}

crossP({0.1,2.2,л 5},{1,л.5,0})

¸

{л 2.5 л 5. л 2.25}

crossP(

vector1

,

vector2

)

⇒

⇒

⇒

⇒

vector

Returns a row or column vector (depending on
the arguments) that is the cross product of

vector1

and

vector2

.

Both

vector1

and

vector2

must be row vectors, or

both must be column vectors. Both vectors must
have equal dimension, and the dimension must
be either 2 or 3.

crossP([1,2,3],[4,5,6])

¸

[л 3 6 л 3]

crossP([1,2],[3,4])

¸

[0

0

л

2]