Sharp WriteView EL-W535XG Operation Manuals page 2

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CALCULATION EXAMPLES

EXEMPLES DE CALCUL

ANWENDUNGSBEISPIELE

EJEMPLOS DE CÁLCULO

ESEMPI DI CALCOLO

RÄKNEEXEMPEL

LASKENTAESIMERKKEJÄ

EL-W531TG

EL-W531TH

EL-W535XG

J (FSE)

3 =

100000

j 100000 z 3

[NORM1]

= U U

33'333.33333

→

[FIX: TAB 2]

33'333.33

J 1 0 2

→

[SCI: SIG 2]

J 1 1 2

3.3b04

→

[ENG: TAB 2] J 1 2 2

33.33b03

→

[NORM1]

J 1 3

33'333.33333

J (EDITOR)

→

[APPROX.]

j J 2 0 1

2 =

1 z 2 =

0 . 5

→ [

]

EXACT(a/b,r,p)

J 2 0 0



2 =

1 z 2 =

J (RECURRING DECIMAL)

→

[ON]

j J 5 1

116



611

495 =

611

495

611



495

1.234

1.234343434

116



495

1.2(34)

611

495

1.234343434

1m116m495

611m495

1.2(34)

→

[OFF]

j J 5 0

j 2 W 5 r

 +  =

+ W 3 r 4



1.15



P 5 =

P 3

* 3 r k * 5

H 15

3.872983346



sin 45 =

v 45 =

0.707106781

DATA

b 1 1

FRQ

Stat 1[a+bx]

1.050261097

; 8

1.826044386

0.995176343

;

654'836.

8 0

d d

40.

d d

x =

3 →

j 3

@ U

6.528394256

y =

46 →

@ V

24.61590706

DATA

b 1 2

200

FRQ

200

]

Stat 2[a+bx+cx

5.357506761

; 8

-3.120289663

0.503334057

0.99994896

x =

10 →

? j

@ U

24.4880159

y =

22 →

9.63201409

@ V

3.432772026

; 8

5 5

3.432772026

–

x 

- nx

–

sx =



–

- nx

sx =



n -

–

- ny

–

sy =



–

- ny



n -

b (TABLE)

+ 1

b 2 ;

X A +

1 e e

X_Start: -2

X_Step: 1

-2.

d d d

+ 1

b 2 ;

X A +

1 e

x + 5

; X +

5 e

X_Start: 1

X_Step: 1

u d

@ Z

3(5

2) =

21.

3 ( 5 + 2 ) =

2 =

17.

3 k 5 + 2 =

2 =

16.

( 5 + 3) k 2 =

→

21.

@ u

→

17.

→

21.

→

16.

@ d

+ & k z ( ) S `

j 45 + 285 z 3

285

3 =

140.

 =

( 18 + 6 ) z



(15 & 8 =

42 k S 5 + 120

× -

120 =

90.

-3

)

) =

5 ` 3 z 4

` S 3 =

1'250'000.

91.

34 + 57 =

45 + 57 =

45 =

102.

68 × 25 =

68 k 25 =

1'700.

68 × 40 =

40 =

2'720.

< >

6789=

j 6789 =

6'789.

; >

6.789b03

0.006789b06

; >

; < ; <

6789.b00

; <

6789000.b-03

v $ t w ^ y s H >

i l O " V Y Z A 1

m * D q B e c a W

j J 0 0



sin 60 [°] =

0.866025403

p 

J 0 1



cos

[rad]

$ s W

0.707106781

tan

1 [g]

J 0 2

@ y

50.

J 0 0

(cosh 1.5 + sinh 1.5)

= j ( H $

+ H v

) A =

20.08553692

 =

@ > t (

tanh

-1

) =

0.895879734

ln 20

2.995732274

log 50

1.698970004

log

16384

14 .

@ O

16384

@ O

16384

)

14 .

20.08553692

@ "

z ; V

0.367879441

1.7

@ Y

1.7

50.11872336

 +  =

@ Z +



@ Z =

0.309523809

Function

Dynamic range

Fonction

Plage dynamique

Funktion

zulässiger Bereich

Función

Rango dinámico

Funzioni

Campi dinamici

Funktion

Definitionsområde

Funktio

Dynaaminen ala

DEG:

≠

(tan

: |

90(2n

1))*

RAD:



180



sin

, cos

, tan

: | x |

≠

(tan

(2n

1))*



GRAD: |

≠

(tan

: |

100(2n

1))*

≤

sin

–1

, cos

–1

100

tan

≤ x <

≤ a <

a ≠

, log

–99

100

, 10

–99

100

(

< x

y <

• y

100

log

100

< x <

0: 0

100

•

x =

•



x ≠

0)*,

< x

100

log |

100



y <

x ≠

• y

100

log

100 (

< x <

100

•

0: 0

x =

•



≠

n, x

0)*,



100

log |

100

< x ≤

100

230.2585092

< x <

100

≤

sinh

, cosh

, tanh

230.2585092

sinh

–1

≤ x <

cosh

–1

tanh

2.15443469

≤ x <

100

x ≠

–1

100

(

≤

69*

≤

9999999999*



100

(n - r)!

≤

9999999999*

≤



100

(n - r)!

≤

↔DEG, D°M'S

0°0'0.00001"

10000°

→

100

≤ r <

100

DEG: |



RAD:

→

180



GRAD: |

DEG → RAD, GRAD → DEG: |

100

►

DRG



RAD → GRAD: | x |

GCD

LCM

≤

| m |

9999999999*

≤

R.Int(m, n)

| n |

9999999999*

n, n

→ DEC

≤

DEC: |

9999999999

≤ x ≤

→ BIN

BIN: 1000000000

1111111111

≤ x ≤

→ PEN

111111111

≤ x ≤

→ OCT

PEN: 2222222223

4444444444

≤ x ≤

→ HEX

2222222222

≤ x ≤

AND

OCT: 4000000000

7777777777

≤ x ≤

3777777777

≤ x ≤

XOR

HEX: FDABF41C01

FFFFFFFFFF

≤ x ≤

XNOR

2540BE3FF

m S

r &

r k



2024

A =

129599



2'024.984375

m S

A =

2'024.984375

2024

129599

@ 1 =

512.

r &

p 49

p 81

@ D

p 27

@ q

@ B =

24.

720.

@ e

10.

@ c

500

25%

125.

500

@ a

120

400

@ a

30.

120

400

500

(500

25%)

@ a

625.

500

400

(400

30%)

@ a

280.

400

| =

@ W

q =

sin

tan

cos

≤ q ≤

DEG

180



≤ q ≤



≤ q ≤ p

RAD

≤ q ≤

GRAD

100

200

]



90° → [rad]

j 90 @ ]

→ [g]

@ ]

100.

→ [°]

@ ]

90.

; t x m M < I J K

x M

16.



(8 × 2)

z ; M =

(8 × 2) × 5

; M k

80.

j x M

$150

150

450.

) $250: M

250

250.

t M k

@ a

) M

@ M

35.

–

t M

665.

z (



...(A)

) =

k ; < +

(A)



z ; < =

sinh

x I @ > v

sinh

0.5

481211825

ANS

10.

ANS

15.

ANS

16.

ANS

A =

256.

≤ x ≤

BIN: 1000000000

1111111111

≤ x ≤

111111111

≤ x ≤

PEN: 2222222223

4444444444

≤ x ≤

2222222221

NOT

≤ x ≤

OCT: 4000000000

7777777777

≤ x ≤

3777777777

≤ x ≤

HEX: FDABF41C01

FFFFFFFFFF

≤ x ≤

2540BE3FE

≤ x ≤

BIN: 1000000001

1111111111

≤ x ≤

111111111

≤ x ≤

PEN: 2222222223

4444444444

≤ x ≤

2222222222

NEG

≤ x ≤

OCT: 4000000001

7777777777

≤ x ≤

3777777777

≤ x ≤

HEX: FDABF41C01

FFFFFFFFFF

≤ x ≤

2540BE3FF

* m, n, r: integer / entier / ganze Zahlen / entero / intero /

heltal / kokonaisluk

W k

 +  =

@ k



+ W



4.833333333

4m5m6

29m6

4.833333333



* 4

6 =

z r g h / d n 4 p

x C

→

DEC (25)

BIN

j @ /

@ z

BIN

11001

HEX (1AC)

@ h

1AC

→

BIN

@ z

110101100

→

PEN

@ r

3203

→

OCT

@ g

654

→

DEC

@ /

428.

@ z

BIN (111) → NEG

BIN

1111111001

111

1011 AND 101

@ z

1011

[BIN]

101

BIN

@ h

5A OR C3

[HEX]

HEX

@ z n

NOT 10110

[BIN]

10110

BIN

1111101001

@ g

24 XOR 4

[OCT]

OCT

B3 XNOR 2D

@ h

[HEX]

HEX

FFFFFFFF61

→ DEC

@ /

159.

[ :

→

7°31'49.44"

[10]

[



663

49.44

@ :

1250

→

123.678

[60]

123.678

@ :

123(40 q 40.8"

3h 30m 45s +

[

6h 45m 36s = [60]

[

10(16 q 21."

1234°56'12" +

1234

[

0°0'34.567" = [60]

[

34.567

1234(56 q 47."

3h 45m – 1.69h

[

1.69

= [60]

= @ :

2(3 q 36."

sin 62°12'24" = [10]

[

0.884635235

u E H

(

x = 6

(

r =

7.211102551

y = 4 →

= [°]

@ u

33.69006753

(

r = 14

(

x =

11.32623792

→

y =

= 36 [°]

8.228993532

@ E

→

[FIX, TAB

1] j J 1 0

0.0



ANS

0.6

ANS

= *

5.0



0.6



→

[MDF]

@ n



ANS

= *

U U

5.4

→

[NORM1]

J 1 3

5.4



9 = 5.5555555555555



9 = 0.6 × 9

@ 6

4 .

23 ÷ 5

3 .

9 . 5

@ 6

2 .

9 . 5 ÷ 4

1 . 5

@ 6 S 5

6 .

-32 ÷ (-5)

-2 .

12210

12'210

j 12210 =

@ 5

2×3×5×11×37

12'210

@ 5

1234567

1'234'567

1234567 =

127×(9721)

@ 5

b (STAT)

INS-D

DATA

b 1 0

FRQ

↓

DATA

@ u @ y d d ;

INS-D

FRQ

b (STAT) _ 8 V U

DATA

b 1 0 @ Z

95 e 80

2 e 75

e 50 e

FRQ

Stat 0[SD]

75.7142857

; 8

13.3630621

178.571429

12.3717915

153.061224

530.

41'200.

50.

75.

80.

95.

j ( 95 &

–

- x

; 8 2 1

(95

)

 ×

) z

; 8 2 2

64.43210706

k 10 + 50 =

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