background image

 

General Operations 

Power Supply 

On or Off 

To turn the calculator on, press [ON/C]. 
To turn the calculator off, press [2ndF] [OFF]. 

Auto power-off function 

The calculator automatically turns off if it has not been used for 
approximately 9 minutes. Power can be restored by pressing the 
[ON/C] key again. Memory contents and the current mode setting 
(STAT, DEG, CPLX, Base-n,etc) are retained when you turn off the   
power and when the calculator automatically turns off. 

Battery replacement 

The calculator is powered by two alkaline button batteries (GP76A or 
LR44). If the display becomes dim and difficult to read, the batteries 
should be replaced as soon as possible. 
To replace the batteries: 
1.  Slide the battery cover off and remove the old batteries. 
2.  Insert new batteries, with positive polarity facing outward. 
3.  Replace the battery cover and press [ON/C] to turn on the power. 

The keyboard 

Most of the keys can perform two functions. 

 

2nd function 

――――――

 

sin

–1

 

1st function 

―――

 

sin 

1st functions 

These are functions that are executed when you press a key without 
first pressing [ 2ndF ]. The function performed is indicated by the label 
on the key. 

2nd functions 

These are functions that are executed when you press a key after first 
pressing [ 2ndF ]. The function performed is indicated by the label 
above the key. 
When you press [ 2ndF ], the 

2ndF

 indicator appears in the display to 

indicate that you will be selecting the second function of the next key 
you press. If you press [ 2ndF ] by mistake, simply press [ 2ndF ] 
again to remove the 

2ndF

 indicator. 

Note: [ A ], [ B ], [ C ], [ D ], [ E ], [ F ] are 1st functions in HEX mode.   

Display Symbols

 

The following symbols, shown on the display, indicate the status of 
the calculator. 

 

DEG

 or 

RAD

 or 

GRAD

: degrees, radians or grads angular unit 

M

 

A value is in memory 

CPLX

   Complex number mode 

E

 

Overflow or error 

STAT

 Statistical 

mode 

    Minus 

2ndF

      [2ndF] key pressed 

( )

    Parentheses calculation 

CP

  

Precision capability 

BIN

     Binary mode 

CPK

   Process capability 

OCT

 Octal 

mode 

σ

   

Deviation    

HEX

  Hexadecimal mode 

USL

    Setting upper limit   

ED

    Edit mode 

LSL

  

Setting lower limit 

HYP

  Hyperbolic mode 

 

 

Display Formats 

The calculator can display numbers in four formats: floating point, 
fixed point, scientific, and engineering. 

Floating point format   

The floating point format displays numbers in decimal form, using up 
to 10 digits. Any trailing zeros are truncated. 
If the result of a calculation is too large to be represented by 10 digits, 
the display automatically switches to scientific format. If the result of a 
later calculation is small enough to be displayed in less than 10 digits, 
the calculator returns to floating point format. 
To set the display to floating point display format: 

1.  Press [ 2ndF ] [ FIX ] [

DEG

  

0. 

Fixed point format   

The fixed point, scientific, and engineering formats use a fixed 
number of decimal places to display numbers. If more than the 
specified number of decimal places is keyed, the entry will be rounded 
to the correct number of decimal places. 
Ex. 1: Fix the display at 2 decimal places, then key in 3.256 

1.  Press [ 2ndF ] [ FIX ] 2 

DEG

   

            0.00 

 

2.  Key in 3.256 [ENTER] 

DEG

   

            3.26 

If fewer than the set number of decimal places is keyed, the entry will 
be padded with trailing zeros. 
Ex. 2: Fix the display at 4 decimal places, then key in 4.23 

1.  Press [ 2ndF ] [ FIX ] 4 

DEG

  

0.0000 

 

2.  Key in 4.23 [ENTER] 

DEG

  

4.2300 

Scientific format  

In scientific format, the number 891500 is shown as 8.915 × 10 

05

where 8.915 is the mantissa and 5 is the exponent of 10. 
Ex. 3: To display 7132 ×

 

125 in scientific format: 

1.  Key in 7132 [ × ] 125 [ENTER] 

DEG  

891500.

 

 

2.  Press [ F

E ] 

DEG

  

8.915 

05

 

You can convert an entry to scientific notation by pressing [EXP] after 
entering the mantissa.   
Ex. 4: Key the number 4.82296 × 10 

5

   

 

1.  Key in 4.82296 [ EXP ] 5 

DEG  

4.82296

 05 

Engineering format 

 

Engineering format is similar to scientific format, except that the 
mantissa can have up to three digits to the left of the decimal and the 
exponent is always a multiple of three. This is useful if you have to 
convert units that are based on multiples of 10 

3

Ex. 5: Convert 15V to 15000mV (V = Volts) 

1.  Key in 15 

DEG

  

15. 

 

 

2.  Press [ ENG ] twice. 

DEG

  

15000. 

 – 

03

 

Ex. 6: Convert 15V to 0.015KV    (V = Volts) 

1.  Key in 15 

DEG

  

15. 

 

2.  Press [ 2ndF ] [ 

  ] [ 2ndF ] [ 

 ] 

DEG  

0.015 

03 

Order of Operations 

Each calculation is performed in the following order of precedence: 
1.  Operations in parentheses. 
2.  Functions that require pressing the function key before entering a 

value, for example, [ DATA ] in statistics mode, and [ EXP ]. 

3.  Functions that require values to be entered before pressing the 

function key, for example, cos, sin, tan, cos

–1

, sin

–1

, tan

–1

, log, ln, 

x

2

, x

–1

π

3

, x!, %, RND, ENG, 

 , 

, and the unit 

conversion functions. 

4. Fractions. 
5. +/– 

6. x 

y

X

 

7. nPr, 

nCr 

8. ×, 

÷

 

9. +, 

– 

Corrections 

If you have made a mistake when entering a number and you have 
not yet pressed an arithmetic operator key, just press [ CE ] to clear 
the last entry. You can then input the desired number again. 
Alternatively,you can delete digits one at a time by pressing the 
backspace key: [ 00

0 ]. 

 

Ex. 7: Change 12385 to 789 

1.  Key in 12385 
2.  Press [ CE ] 789   

DEG

  

789. 

 

Ex. 8: Change 12385 to 123 

 

1.  Key in 12385 

2.  Press [ 00

0 ] twice. 

DEG  

123. 

In a series of calculations, you can correct errors in intermediate 
results by pressing [ON/C]. This clears the calculation without clearing 
memory. 
If you press the wrong arithmetic operation key, just press [ CE ] and 
then the correct arithmetic key. 

Exchange key 

Pressing [ 2ndF ] [ X

Y ] changes the currently displayed value to 

the previously displayed value. 

123 [ + ] 456 [ENTER] 

DEG

  

579.00

[ 2ndF ] [ X

Y ] 

DEG

  

456.00

123 + 456 = ? 

[ 2ndF ] [ X

Y ] 

DEG

  

579.00

Accuracy and Capacity 

Accuracy:

 ±1 in the 10th digit.   

Capacity:

 In general, calculations can be displayed as a mantissa of 

up to 10 digits, a 10-digit mantissa together with a 2-digit exponent up 
to 10 

±99

, or as an integer between –9999999999 and 9999999999. 

Numbers used as input to a particular function must be within the 
allowable range for that function (as set out in the following table): 
 

Functions Allowable 

input 

range 

sin x, cos x, tan x 

Deg:   x   

<

 4.5 × 10 

10 

deg 

Rad:   x   

<

 2.5 × 10 

π

 rad 

Grad:   x   

<

 5 × 10

 10 

grad 

Also, for tan x: 
Deg:   x   

 90 (2n +1) 

Rad:   x   

    2

π

(2n +1)   

Grad:   x   

 100 (2n +1) 

where 

n

 is an integer. 

sin 

–1 

x, cos 

–1 

 x 

 

 1 

tan 

–1 

 x 

 

<

 1 × 10 

100

 

sinh x, cosh x 

 x 

 

 230.2585092 

tanh x 

 x 

 

<

 1 × 10 

100

 

sinh 

–1 

 x 

 

<

 5 × 10 

99

 

cosh 

–1 

x 1 

 x 

<

 5 × 10 

99

   

tanh 

–1 

 x 

 

<

 1 

log x, ln x 

1 × 10 

–99 

 x 

<

 1 x 10 

100

 

10 

x

 

–1 × 10 

100 

 x 

 100 

e

 x

 

–1 × 10 

100 

 x 

 230.2585092 

x   0 

 x 

<

 1 × 10 

100

 

2

 

 x 

 

<

 1 × 10 

50

 

x

–1

 

x

│<

1 × 10 

100

, X

3

x

 

 x 

 

<

 1 × 10 

100

 

X ! 

 x 

 69, where 

x

 is an integer. 

R

2

2

y

x

+

  1 × 10 

100

 

P

R 0 

 

r

  1 × 10 

100

 

Deg

:│θ│<

4.5 × 10 

10

 deg 

Rad

:│θ│<

2.5 × 10 

8

π

rad 

Grad

:│θ│<

5 × 10 

10

 grad 

Also, for tan x: 
Deg

:│θ│≠

90 (2n+1) 

Rad

:│θ│≠

 

2

π

 (2n+1) 

Grad

:│θ│≠

100 (2n+1) 

where 

n

 is an integer. 

   

DD

, MM, SS.SS 

  1 × 10 

100

 MM, SS.SS 

 

 x 

 

<

 1 × 10 

100

 

y

 x 

>

 0 : –1 × 10

100 

<

 y log x 

<

 100 

x = 0 : y 

>

 0 

<

 0 : y = n, 1/(2n+1) 

 where 

n

 is an integer 

but  –1 x 10

100 

<

 

 y 

 

1  log 

x

 100 

x

Y

 

y

 

>

 0 : x 

 0, –1 x 10

100 

 

<

 

 x 

 

1

log 

y

 

<

 100

 

y

 = 0 : x 

>

 0 

y

 

<

 0 : x =2n+1, l/n 

where 

n

 is an integer other than 0 

but  –1 x 10

100 

<

 

 x 

 

1

 

log 

 y

 

 100

   

a b/c 

Input

The integer, numerator, denominator 

and fraction symbols must in total be no 
more than 10 digits. 
Result

Displayed as a fraction when the 

integer, numerator and denominator are 
each less than 1 × 10

10

nPr, nCr 

 0

r

n, n

9999999999; 

n

r

 are integers.

STAT 

 

<

 1 × 10 

50 

Σ

 x 

 

<

 1 × 10 

100 

≦│Σ

2

│<

1 × 10 

100

; n, r are integer 

x

n

0, S

n

1,

σ:

n

Range = 1 ~ r, 1

n

r, 80

r

20400 

DEC 0 

 X 

9999999999 (for zero or positive)

–9999999999 

 X 

  –1 (for negative) 

BIN 

 X 

  0111111111 (for zero or 

positive) 

1000000000 

 X 

 1111111111 

(for negative) 

OCT 0 

 X 

  3777777777 (for zero or positive)

4000000000 

 X 

 7777777777 

(for negative) 

HEX 0 

 X 

2540BE3FF (for zero or positive)

FDABF41C01 

 X 

 FFFFFFFFFF (for 

negative) 

Overflow and Error Conditions   

The symbol 

E

 appears when any of the following conditions occur. 

Press [ ON/C ] to remove the overflow or error indicator. 

• 

When you attempt to perform a function calculation with a number 
outside the allowable input range. 

• 

When you attempt to divide a number by 0. 

• 

When you have pressed the [ ( ] key more than 15 times in a 
single expression. 

• 

When any result (whether intermediate or final) or the 
accumulated total in memory is outside ±9.999999999 × 10 

99

 

• 

When there are more than six pending operations. 

If the calculator becomes locked and pressing keys has no effect, 
press [ M+ ] and [ ENG ] at the same time. This unlocks the calculator 
and returns all settings to their default values. 

Basic Calculations 

The following examples of basic calculations assume that your 
calculator is in decimal base and with floating point display. 
 

Mixed Arithmetic Calculations 

 

1 + 2 × 3 = ? 

1 [ + ] 2 [ × ] 3 [

ENTER

DEG

  

7.

–3.5 + 8 

÷

2 = ? 

3.5 [ +/– ] [ + ] 8 [ 

÷ 

] 2 

[

ENTER

DEG

  

0.5

Parentheses Calculations 

Operations inside parentheses are always executed first. You can 
specify up to 15 levels of parentheses in a single calculation. When 
you enter the first parenthesis, the 

( )

 indicator appears on the display 

and remains until each opening parenthesis has a corresponding 
closing parenthesis. 

 

( 5–2 × 1.5 ) × 3 
+ 0.8 × (– 4 ) 
= ? 

[ ( ] 5 [ – ] 2 [ × ] 1.5 [ ) ] [ × ] 3 
[ + ] 0.8 [ × ] 4 [ +/– ] [

ENTER

]

DEG

  

2.8

2 × ( 7 + 6 × ( 5 
+ 4 )) = ? 

2 [ × ] [ ( ] 7 [ + ] 6 [ × ] [ ( ] 5 
[ + ] 4 [

ENTER

DEG

  

122.

Note: It is not necessary to press [ ) ] before [

ENTER

]. 

Repeating a Calculation 

You can repeat the last number entered, or the last operation 
executed, by pressing [

ENTER

]. 

Repeating the last number 

3 [ × ] [

ENTER

DEG

  

9.

[

ENTER

DEG

  

27.

3 × 3 = ? 
3 × 3 × 3 = ? 
3 × 3 × 3 × 3 = ? 

[

ENTER

DEG

  

81.

Repeating the last arithmetic operation 

321 [ + ] 357 [

ENTER

DEG

  

678.

321 + 357 = ? 
654 + 357 = ? 

654 [

ENTER

DEG

  

1011.

 

579 [ – ] 159 [

ENTER

DEG  

420.

579 – 159 = ? 
456 – 159 = ? 

456 [

ENTER

DEG

  

297.

 

 

3 [ × ] 6 [ × ] 45 [

ENTER

DEG

  

810.

23 [

ENTER

DEG

  

414.

18 × 45 = ? 
18 × 23 = ? 
18 × (0.5x10

2

) = ?  0.5 [ EXP ] 2 [

ENTER

DEG

  

900.

 

96 [ 

÷ 

] 8 [

ENTER

DEG

  

12.

75 [

ENTER

DEG

  

9.375

96 

÷

  8 = ? 

75 

÷

  8 = ? 

(1.2x10

2

÷

  8 = ?  1.2 [ EXP ] 2 [

ENTER

DEG

  

15.

Percentage Calculations

 

120 [ × ] 30 [ 2ndF ] [ % ] 
[

ENTER

DEG

  

36.

30% of 120 = ? 
70% of 120 = ? 

70 [ 2ndF ] [ % ] [

ENTER

DEG

  

84.

88 is 55% of what 
number? 

88 [ 

÷ 

] 55 [ 2ndF ] [ % ] 

[

ENTER

DEG

  

160.

30% mark up of 
120 = ? 

120 [ + ] 30 [ 2ndF ] [ % ] 
[

ENTER

DEG

  

156.

30% discount of 
120 = ? 

120 [ – ] 30 [ 2ndF ] [ % ] 
[

ENTER

DEG

  

84.

Memory Calculations 

• 

The 

M

 indicator appears when a number is stored in memory. 

• 

Recalling from memory does not delete the contents of memory. 

• 

The memory is not available when you are in statistics mode. 

• 

To copy the displayed number to memory, press [ X

M ]. 

• 

To clear the memory, press [ 0 ] [ X

M ], or [ CE ] [ X

M ], in 

that order. 

 

[ CE ] [ X

M ] 

 DEG

  

0.

3 [ × ] 5 [ M+ ] 

M

 DEG

  

15.

56 [ 

÷ 

] 7 [ M+ ] 

M

 DEG

  

8.

74 [ – ] 8 [ × ] 7 [ M+ ] 

M

 DEG

  

18.

[ MR ] 

M

 DEG

  

41.

3 × 5 

+ 56 

÷ 

+ 74 – 8 × 7 
Total = ? 

0 [ X

M ] 

 DEG

  

0.

Common Math Calculations 

The following example calculations assume that your display is fixed 
at 2 decimal places. 

Reciprocal, Factorial 

 

25

.

1

1

 = ? 

1.25 [ 2ndF ] [ x

–1

] [

ENTER

DEG

  

0.80

5! = ? 

5 [ 2ndF ] [ x! ] [

ENTER

DEG

  

120.00

Square, Square Root, Cube Root, Power, Other Roots 

2

 + 3 

4

 = ? 

2 [ x 

2

 ] [ + ] 3 [ x 

y

 ] 4 [

ENTER

]

DEG

  

85.00

5 ×

3

27

+

34

= ? 

5 [ × ] 27 [ 2ndF ] [ 

3

  ] [ + ] 

34 [ 

 ] [

ENTER

DEG

  

20.83

9

72

 

 

= ? 

72 [ 2ndF ] [ 

X

  ] 9 [

ENTER

DEG

  

1.61

Logarithms and Antilogarithms 

ln7 + log100 = ? 

7 [ ln ] [ + ] 100 [ log ] [

ENTER

]

DEG

  

3.95

10 

= ? 

2 [ 2ndF ] [ 10 

] [

ENTER

DEG

  

100.00

5

 – e 

–2

 = ? 

5 [ 2ndF ] [ e 

x

 ] [ – ] 2 [+/–] 

[ 2ndF ] [ e 

x

 ] [

ENTER

DEG

  

148.28

Fraction calculations  

Fractions are displayed as follows: 

 

12 

=  

12

5

 

 

56 

 5 

12 

=  56

12

5

 

Note :

 

The display is truncated if the integer, numerator, denominator 
and fraction symbols together are more than 10 digits.

 

Press [ 2ndF ] [

d/c ] to convert the displayed value to an improper 

fraction.  

2 [ a b/c ] 3 [ + ] 7 [ a b/c ] 3 
[ a b/c ] 5 [

ENTER

DEG

   8

 4 

15

3

2

+ 7

5

3

 

= 8

15

4

 

15

124

 

[ 2ndF ] [

d/c ] 

DEG

   124 

15

If you press [ a b/c ] after pressing [

ENTER

], or if a fraction was 

combined with a decimal number, the answer is displayed as a 
decimal number. 

5 [ a b/c ] 4 [ a b/c ] 9 [ + ] 3 
[ a b/c ] 3 [ a b/c ] 4 [

ENTER

DEG

  9 

  7

36

5

9

4

+ 3

4

3

 

= 9

36

7

= 9.19 

[ a b/c ] 

DEG

  

9.19

8

9

4

+ 3.75 = 12.19 

8 [ a b/c ] 4 [ a b/c ] 9 [ + ] 
3.75 [

ENTER

DEG

  

12.19

Where possible, a fraction is reduced to its lowest terms after you 
press [ + ], [ – ], [ × ], [ 

÷ 

] or [

ENTER

]. 

3

21

119

 = 8

3

2

 

3 [ a b/c ] 119 [ a b/c ] 21 
[

ENTER

DEG

   8 

  2

3

A result is displayed in decimal format if the integer, numerator, 
denominator and fraction symbols are together more than 10 digits.

   

12345

16

5

+5

13

6

   

= 12350.77 

12345 [ a b/c ] 5 [ a b/c ] 16 
[ + ] 5 [ a b/c ] 6 [ a b/c ] 13 
[

ENTER

DEG

   12350.77

Converting Angular Units 

You can specify an angular unit of degrees (DEG), radians (RAD), or 
grads (GRAD). You can also convert a value expressed in one 
angular unit to its corresponding value in another angular unit. 
The relation between the angular units is: 

180° = 

π 

radians = 200 grads 

• 

To change the angular unit setting to another setting, press   
[ DRG ] repeatedly until the angular unit you want is indicated in 

the display.   

• 

After entering the value of an angle, press [ 2ndF ] [ DRG

repeatedly until the value is converted to the desired unit. 

90 

DEG

  

90.

[ 2ndF ] [ DRG

RAD

  

1.57

90° (deg) 

 

= ? (rad) 
= ? (grad) 

[ 2ndF ] [ DRG

GRAD

  

100.00

 
 

Trigonometric and Inverse Trigonometric Functions 

Before undertaking a trigonometric or inverse trigonometric 
calculation, make sure that the appropriate angular unit is set. 

3 sin 85° = ? 

3 [ × ] 85 [ sin ] [

ENTER

DEG

  

2.99 

cos (

4

π

  rad) = ? 

[ 2ndF ] [ 

π 

] [ 

÷ 

] 4 [

ENTER

[ cos ] 

RAD

  

0.71 

tan 150 grad = ? 

150 [ tan ] 

GRAD

  

–1.00 

sin 

–1

 0.5 = ? deg

0.5 [ 2ndF ] [ sin 

–1

 ] 

DEG

  

30.00 

cos 

–1 

(

2

1

) =   

? rad 

2 [ 

  ] [ 2ndF ] [ x

–1

] [ 2ndF ] 

[ cos 

–1

 ] 

RAD

  

0.79 

tan 

–1

 1 = ? grad 

1 [ 2ndF ] [ tan 

–1

GRAD

  

50.00 

Hyperbolic and Inverse hyperbolic functions 

cosh1.5+sinh1.5 
= ? 

1.5 [ HYP ] [ cos ] [ + ] 1.5 
[ HYP ] [ sin ] [

ENTER

DEG

  

4.48 

sinh 

–1

 7 = ? 

7 [ HYP ] [ 2ndF ] [ sin 

–1

DEG

  

2.64 

tanh 1 = ? 

1 [ HYP ] [ tan ] 

DEG

  

0.76 

Rectangular and Polar coordinates 

 

Rectangular Coordinates 

Polar Coordinates 

 

a + b i = r (cos

θ

 + i sin

θ

Note:  Before undertaking a coordinates conversion calculation, make 

sure that the appropriate angular unit is set.   

Converting from Rectangular to Polar   

5 [ a ] 6 [ b ] [ 2ndF ] [ R

P ] 

DEG

  

7.81 

If 

a

 = 5 and 

b

 = 6, 

what are 

r

 and

θ

? [ b ] 

DEG

  

50.19 

Converting from Polar to Rectangular 

25 [ a ] 56 [ b ] [ 2ndF ]   
[ P

R ] 

DEG

  

13.98 

If 

r

 = 25 and 

θ

56°, what are 

a

 

and 

b

[ b ] 

DEG

  

20.73 

Permutations and Combinations

 

nPr = 

)!

r

n

(

n

 nCr 

)!

r

n

(

r

n

 

How many 
permutations of 4 
items can you 
select from a set 
of 7 items? 

7 [ 2ndF ] [ nPr ] 4 [

ENTER

DEG

  

840.00 

How many 
combinations of 4 
items can you 
select from a set 
of 7 items? 

7 [ 2ndF ] [ nCr ] 4 [

ENTER

DEG

  

35.00 

Sexagesimal 

 Decimal form Conversions 

You can convert a sexagesimal figure (degree, minute and second) to 
a decimal number by pressing [ 

 

] and convert a decimal number 

to a sexagesimal figure by pressing [ 2ndF ] [ 

 ]. 

Sexagesimal figures are displayed as follows: 

12 

…

 

45 

׀

 

30 

׀

 

׀

 5 

= 12 degrees, 45 minutes, 30.5 
seconds 

Note:  If the total number of digits in a DD, MM and SS.SS figure 

exceeds 8, the figure is truncated. 

Converting from Sexagesimal to Decimal

 

12 deg., 45 min., 
30.5 sec.= ? 

12 [

 

  ] 45 [ 

 ] 30.5 

 

DEG

  

12.76 

Converting from Decimal to Sexagesimal   

 

2.12345 = ? 

2.12345 [ 2ndF ] [ 

 

DEG

 2 

…

 

׀

24 

׀׀

42 

Base-n Calculations 

Converting between bases 

You can add, subtract, multiply, and divide binary, octal, and 
hexadecimal numbers in addition to decimal numbers. Select the 
number base you want by pressing [

BIN], [

OCT], [

HEX], or 

  [

DEC]. The 

BIN

OCT

, and 

HEX

 indicators show you which base 

you are using. (If none of these indicators is displayed, you are using 
decimal base.)   
The number keys that are active in a particular base are: 
Binary base: [ 0 ] and [ 1 ]     
Octal base: [ 0 ] to [ 7 ] 
Decimal base: [ 0 ] to [ 9 ] 
Hexadecimal base: [ 0 ] to [ 9 ] and [ A ] to [ F ] 

[ 2ndF ] [

DEC] 31 

DEG

  

31. 

[ 2ndF ] [

BIN] 

DEG  BIN

 11111.

 

[ 2ndF ] [

OCT] 

DEG  OCT

 37.

 

31 (base 10) 
= ? (base 2) 
= ? (base 8) 
= ? (base 16) 

[ 2ndF ] [

HEX] 

DEG  HEX

 1F.

 

[ 2ndF ] [

HEX] 4 [ × ] 1B 

[

ENTER

DEG  HEX

 6C. 

[ 2ndF ] [

BIN] 

DEG  BIN

1101100.

 

[ 2ndF ] [

DEC] 

DEG  

 108.00

 

4 × 1B (base 16) 
= ? (base 2)   
= ? (base 10)   
= ? (base 8) 

[ 2ndF ] [

OCT] 

DEG  OCT

 154.

 

 

Negative Numbers and Complements 

In binary, octal, and hexadecimal bases, negative numbers are 
expressed as complements. The complement is the result of 
subtracting that number from 10000000000 in that number’s base. 
You do this by pressing [+/–] in a non-decimal base. 

Calculate the 
complement of 
binary number 
11011 

[ 2ndF ] [

BIN ] 11011 [+/–] 

DEG  BIN

 

 1111100101. 

Complex Number Calculations 

Press [ CPLX ] to enter complex number mode. The 

CPLX

 indicator 

appears on the display. You can add, subtract, multiply, and divide 

complex numbers. 
Complex numbers are generally represented as 

a

 + 

b

 

i

, where 

a

 is the 

real part and 

bi

 is the imaginary part. 

[ 2ndF ] [ CPLX ] 7 [ a ] 9 
[ +/– ] [ b ] [ + ] 15 [ a ] 10 [ b ] 
[

ENTER

DEG  CPLX

  22.00 

( 7 – 9 i ) +   
(15 + 10 i) = ? 

[ b ] 

DEG  CPLX

   1.00 

Note: Memory calculation is available in complex number mode. 

Random Numbers 

Press [ 2ndF ] [ RND ] to generate a random number between 0.000 
and 0.999. 

Unit Conversions 

The unit conversion keys are [°F

°C ], [ mmHg

Kpa ], [ gal

I ],   

[ lb

kg ] and [ oz

g ]. The following example illustrates the general 

procedure for converting values from one unit to another. 

 

12 in = ? cm 

12 [ A

B ] [ 2ndF ] [ in

cm] 

DEG

  

30.48 

98 cm = ? in 

98 [ 2ndF ] [ A

B ] [ 2ndF ] 

[ in

cm ] 

DEG

  

38.58 

Statistics 

Press [ 2ndF ]

 

[ STAT ] to enter statistics mode. The 

STAT

 indicator 

appears on the display. In statistics mode you can calculate the 
following single-variable statistics:   

number of data items 

Σ

sum of the values of all the data items 

Σ

x

2

 

sum of the squares 

x  mean 

value 

s sample 

standard 

deviation 

1

n

/n

)

x

(

x

2

2

 

σ

 

population standard deviation 

n

/n

)

x

(

x

2

2

 

 

Continued on other side 

hp 9s 

Scientific Calculator 

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