1 / x
–1
–1
HYP
SIN
STO
RCL
VIEW
ENTER
CONST
FILL
X
X
e
LN
10
!
Cy,xPy,x
x =
EXIT
I x I
Complex constants are simply entered as imaginary_part
Pure real constants, identified by a zero imaginary part, are easily put in for complex
calculations as follows:
n for integers 0 < n ≤ 9 only.
In programming,
Example:
Pure imaginary constants, on the other hand, having a zero real part, are entered thus:
imaginary_constant
Example:
Compare the stack mechanics shown on previous page.
WP 34S Owner's Manual
√x
X
y
–1
COS
TAN
R
R
+ / –
x
y
x
7
8
X
LG
2
LB
4
5
1
2
≠
?
i
RND
IP
FP
real_constant , or alternatively
The real number
– both will result in
The complex unit
– both will result in
–1
f
g
9
X
1 / x
y
LOG
X
6
√x
3
X.FCN
STOPW
# n with 0 ≤ n ≤ 256 will save steps.
may be loaded via
y
x
= 0 and
.
i
may be loaded via
y
= 1 and
x
Edition 3.1
After pressing
your WP 34S allows for
CPX
the complex operations
shown on this virtual
keyboard (but STOPW
represents an applica-
h
tion in real domain, see
p.
145
.
)
Note that a second
/
, a
directly after
| |
just cancel the prefix
, so you return to
×
the default keyboard
assignments.
2
x
–
Constants in complex
domain and such cal-
+
culations occupy two
registers like all other
complex numbers!
real_part .
=
.
= 0 .
,
, or
will
or
or
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