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Two-number functions, Stack manipulation functions, Conditional tests – HP 15c User Manual

Page 131: One-number functions

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Section 11: Calculating With Complex Numbers 131

One-Number Functions

The following functions operate on both the real and imaginary parts of the
number in the X-register, and place the real and imaginary parts of the
answer back into those registers.

¤ x N o ∕ @ ' a : ;

All trigonometric and hyperbolic functions and their inverses also belong to
this group.*

The a function gives the magnitude of the number in the X-registers
(the square root of the sum of the squares of the real and imaginary parts);
the imaginary part of the magnitude is zero.

: converts to polar form and ; converts to rectangular form,
as described later in this section (page 133).

For the trigonometric functions, the calculator considers numbers in the real
and imaginary X-registers to be expressed in radians—regardless of the
current trigonometric mode. To calculate trigonometric functions for values
given in degrees, use r to convert those values to radians before
executing the trigonometric function.

Two-Number Functions

The following functions operate on both the real and imaginary parts of the
numbers in the X- and Y-registers, and place the real and imaginary parts of
the answer into the X-registers. Both stacks drop, just as the ordinary stack
drops after a two-number function not in Complex mode.

+ - * ÷ y

Stack Manipulation Functions

When the calculator is in Complex mode, the following functions
simultaneously manipulate both the real and imaginary stacks in the same
way as they manipulate the ordinary stack when the calculator is not in
Complex mode. The ® function. for instance, will exchange both the
real and imaginary parts of the numbers in the X- and Y-registers.

®

)

(

v

K

* Refer to the HP-15C Advanced Functions Handbook for definitions of complex

trigonometric functions and further information about doing calculations in Complex mode.