Sharp EL-509V Operation Examples

EL-509V EL-509VH
EL-531V EL-531VH
Operation Examples
Bedienungsbeispiele
Exemples d'opérations
Ejemplos de operación
Esempi di calcolo
Rekenvoorbeelden
Exemplos de Operação
Operationsexempel
Käyttöesimerkkejä
èËÏÂ˚ ÙÛÌ͈ËÓÌËÓ‚‡ÌËfl èËÏÂ˚ ÙÛÌ͈ËÓÌËÓ‚‡ÌËfl èËÏÂ˚ ÙÛÌ͈ËÓÌËÓ‚‡ÌËfl èËÏÂ˚ ÙÛÌ͈ËÓÌËÓ‚‡ÌËfl èËÏÂ˚ ÙÛÌ͈ËÓÌËÓ‚‡ÌËfl
PRINTED IN CHINA / IMPRIMÉ EN CHINE / IMPRESSO EN CHINA
03BGK (TINSZ0423TH01)
(1) []
13(5+2)=
N 3 ( 5 + 2 )=
23×5+2= 3 * 5 + 2 =
33×5+3×2= 3 * 5 + 3 * 2 =
→ 1
@[
→ 2
]
→ 3
]
→ 2
[
(2) +-*/()±E
45+285÷3= N 45 + 285 / 3 =
( 18 + 6 )/
18+6
=
( 15 - 8 =
15–8 3.428571429
42×(–5)+120= 42 *± 5 + 120 =
(5 ±)
* 1 * 1
÷
(5×10 3 ) (4×10 –3 )= 5 E 3 / 4 E
± 3 =
(3)
34 + 57 =
34+57=
=
45+57= 45
68 * 25 =
68×25=
40 =
68×40=
(4) sutSUTVGh
HIle¡•L⁄™
$#!qQ%
sin60[°]= Ns 60 = 0.866025403
π
Gu (V/ 4
cos–[rad]=
4
)= 0.707106781
–1
G@T 1 =
tan 1=[g]
G
(cosh 1.5 + N(hu 1.5 +h
2
s 1.5 )L= 20.08553692
sinh 1.5) =
5 @Ht( 5
–1
tanh – =
7
/ 7 )=
0.895879734
I 20 =
ln 20 = 2.995732274
log 50 = l 50 = 1.698970004
3
@e 3 =
e = 20.08553692
1.7 @¡ 1.7 =
10 = 50.11872336
1 1
6 @•+ 7 @
– + – =
6 7
•= 0.309523809
–2 4 × 5 2
8 – 3 = 8 ™ ± 2 - 3 ™
4 * 5 L= –2024.984375
1
) – =
3 12 ™ 3 ™ 4
(12
4
@•=
6.447419591
√ 49 – √ 81 =
4 ⁄ 49 - 4 @$
81 =
3
¿27 @# 27 =
4 @!=
4! =
10 @q 3 =
P =
10 3
5 @Q 2 =
C =
5 2
500×25%= 500 * 25 @%
120 / 400 @%
120÷400=?%
• • • •
• • • •
500+(500×25%)= 500 + 25 @%
400–(400×30%)= 400 - 30 @%
(5) g
N 90 @g
90°→ [rad]
→ [g]
@g
→ [°]
@g
–1
sin 0.8 = [°] @S 0.8 =
→ [rad]
@g
→ [g]
@g
→ [°]
@g
(6) RO;:?
N 8 * 2 OM
24 /RM=
24÷(8×2)=
RM* 5 =
(8×2)×5=
NOM
150 * 3 ;
$150×3:M
1
250 ;
+)$250:M =M +250
2 1
×5%
R M * 5 @ %
–)M
2
M @:RM
140 OY
$1= ¥140
33775 /RY=
¥33,775=$?
$2,750=¥? 2750 *RY=
3 OY
r = 3cm
πr
2
= ? V@K
(r → Y)
YL=
24 /( 4 + 6 )
21.
24
17.
=
= 2.4...(A)
4+6
21.
3 *@?+ 60 /
21. 3×(A)+60÷(A)=
@?=
17.
21.
17. (7)
6+4=ANS N 6 + 4 =
+ 5 =
ANS+5
140.
44+37=ANS 44 + 37 =
√ ANS =
⁄=
–90.
(8) \|
N 3 \ 1 \ 2 +
1 4 b
3– + – = [a–]
1250000.
c
2 3 4 \ 3 =
→[a.xxx]
\
→[d/c]
@|
@¡ 2 \ 3
2
91.
3
10 = =
102.
2
1700. 1.25 + – = [a.xxx] 1.25 + 2 \ 5 =
5
2720. b
→[a–] \
c
N 1.65 =
1.65
b
→[a–]
\
c
→[d/c]
@|
→[a.xxx]
\
l l
5
* 4 5 6 =4—
6
(9) o_
50.
12°39'18"05 N 12 o 39 o 18 o 5
→ [10]
@_
123.678 @_
123.678
→ [60]
3h30m45s + 3 o 30 o 45 + 6 o
45 o 36 =
6h45m36s = [60]
3h45m – 3 o 45 - 1.69 =
1.69h = [60] @_
sin62°12'24" = [10] s 62 o 12 o 24
=
(10) {},≠
N 6 @, 4


x = 6 r =
→
 @{[ r ]

θ = [°]
y = 4 

@≠[θ]
4.
@≠[ r ]
3.
14 @, 36
24.  
r = 14 x =
@}[x]
 → 
 
θ = 36[°] @≠[y]
720. y =
@≠[x]
10.
125.
30.
(11) j
625.
5÷9=ANS N@f@i 1
280.
5 / 9 =
ANS×9=
* 9 =*
[FIX,TAB=1]
5 / 9 =@j
* 9 =*
1.570796327
@f@f@f
100.
×9
90. 1 –1
* 5.55555555555×10
2
* 0.6×9
53.13010235
0.927295218
(12) m (STAT x)
59.03344706
53.13010235
DATA
@m1
95
95 k
80
80 80 k
16.
75 k
1.5
75 & 3 k
75
80.
50 k
75
0. 50
R~
x=
450.
σx=
Rp
250.
Σx=
Rz
35.
Σx 2 =
Rw
665.
R£
sx=
140.
=
2 L=
sx
241.25
385000.
(13) m (STAT xy)
3.
x y @m2
28.27433388
2 & 5 k
2 5
k
2 5
2.4
12 & 24 k
12 24
21 & 40 & 3 k
21 40
32.2
15 & 25 k
21 40
Ra
21 40
Rb
15 25
Rr
R£
10.
R¢
15.
81.
x=3 → y'=?
3 @y
9.
y=46 → x'=?
46 @x
(14)
x = Σx n
σx =
l l
4 5 6 *
Σx = x
Σx
2 – nx 2
4.833333333 1
sx = Σx
2 = x
l
n – 1
29 6
Σy
σy =
4.641588834
y =
n
1.65
Σxy = x
Σy
l l
2 – ny 2
Σy = y
1 13 20
sy = 1
Σy
n – 1 2 = y
1.65
l l
1 13 20
l
33 20
1.65
This equipment complies with the requirements of Directive 89/
336/EEC as amended by 93/68/EEC.
12.65501389
Dieses Gerät entspricht den Anforderungen der EG-Richtlinie
123°40'40.80
89/336/EWG mit Änderung 93/68/EWG.
Ce matériel répond aux exigences contenues dans la directive
89/336/CEE modifiée par la directive 93/68/CEE.
Dit apparaat voldoet aan de eisen van de richtlijn 89/336/EEG,
10°16'21.00
gewijzigd door 93/68/EEG.
Dette udstyr overholder kravene i direktiv nr. 89/336/EEC med
2°03'36.00
tillæg nr. 93/68/EEC.
Quest' apparecchio è conforme ai requisiti della direttiva 89/
336/EEC come emendata dalla direttiva 93/68/EEC.
0.884635235
.
Este equipamento obedece às exigências da directiva 89/336/
CEE na sua versão corrigida pela directiva 93/68/CEE.
7.211102551
Este aparato satisface las exigencias de la Directiva 89/336/CEE
33.69006753
modificada por medio de la 93/68/CEE.
7.211102551
Denna utrustning uppfyller kraven enligt riktlinjen 89/336/EEC
så som kompletteras av 93/68/EEC.
11.32623792
Dette produktet oppfyller betingelsene i direktivet 89/336/EEC i
8.228993532 endringen 93/68/EEC.
11.32623792
Tämä laite täyttää direktiivin 89/336/EEC vaatimukset, jota on
muutettu direktiivillä 93/68/EEC.
чÌÌÓ ÛÒÚÓÈÒÚ‚Ó ÒÓÓÚ‚ÂÚÒÚ‚ÛÂÚ Ú·ӂ‡ÌËflÏ ‰ËÂÍÚË‚˚
89/336/EEC Ò Û˜ÂÚÓÏ ÔÓÔ‡‚ÓÍ 93/68/EEC.
(15)
Function
Funktion
Function
0.6 Fonction
Funktion
1 5.0 Función
Fonction
Funzioni
Función
0.6
Functie
Funzioni
2
5.4
Função
Functie
Funktion
Função
Funktio
Funktion
Funktio
îÛÌ͈Ëfl
0.
1.
2.
3.
sin x, cos x,
6.
tan x
7.
75.71428571
sin –1 x , cos –1 x
12.37179148
tan –1 3 ¿x
x,
530.
In x , log x
41200.
13.3630621
y x
178.5714286
0.
x ¿y
1.
2.
3.
6.
e x
7.
1.050261097
10 x
1.826044386
sinh x, cosh x,
0.995176343
tanh x
8.541216597
15.67223812 –1
sinh x
cosh –1 x
6.528394256
tanh –1 x
24.61590706
2
x
¿x
x –1
Σx
2 – nx 2
n!
n
+ x + ··· + x
2 n
P
n r
2 + x 2 + ··· + x 2
1 2 n
(n-r)!
Σy
2 – ny 2
n C
n r
y + x y + ··· + x y
(n-r)!
1 1 2 2 n n
+ y + ··· + y
2 n ↔DEG, D°M'S
2 + y 2 + ··· + y 2
1 2 n
x, y → r, θ
r, θ → x, y
DRG |
* n, r: integer / ganze Zahlen / entier / entero / intero / geheel
getal / inteiros / heltal / kokonaisluku /
/
89/336/ ,
93/68/
Dynamic range
zulässiger Bereich
Dynamic range
Plage dynamique
zulässiger Bereich
Rango dinámico
Plage dynamique
Campi dinamici
Rango dinámico
Rekencapaciteit
Campi dinamici
Limite dinâmico
Rekencapaciteit
Definitionsområde
Limite dinâmico
Dynaaminen ala
Definitionsområde
Dynaaminen ala
ÑË̇Ï˘ÂÒÍËÈ ‰Ë‡Ô‡ÁÓÌ
DEG: | x | < 10 10
(tan x : | x | ≠ 90 (2n–1))*
π
| x | < ––– × 10
RAD: 10
180 π
(tan x : | x | ≠ – (2n–1))*
2
10
| x | < —– × 10
GRAD: 10
9
(tan x : | x | ≠ 100 (2n–1))*
| x | ≤ 1
| x | < 10 100
≤ x < 10
10 –99 100
• y > 0: –10 100 < x log y < 100
• y = 0: 0 < x < 10 100
• y < 0: x = n
1
(0 < | x | < 1: – = 2n–1, x ≠ 0)*,
x
–10 100 < x log | y | < 100
1
< – log y < 100 (x ≠ 0)
• y > 0: –10 100
x
100
• y = 0: 0 < x < 10
• y < 0: x = 2n–1
1
(0 < | x | < 1 : – = n, x ≠ 0)*,
x
1
–10 100 < – log | y | < 100
x
< x ≤ 230.2585092
–10 100
–10 100 < x < 100
| x | ≤ 230.2585092
50
| x | < 10
1 ≤ x < 10
50
| x | < 1
| x | < 10 50
0 ≤ x < 10
100
(x ≠ 0)
| x | < 10 100
0 ≤ n ≤ 69*
0 ≤ r ≤ n ≤ 9999999999*
n!
100
—– < 10
0 ≤ r ≤ n ≤ 9999999999*
0 ≤ r ≤ 69
n!
—– < 10 100
0°00'00.01 ≤ | x | < 10000°
√ x
100
< 10
2 + y 2
0 ≤ r < 10
100
| θ | < 10
10
DEG:
π
| θ | < —– × 10
RAD: 10
180
| θ | < –– × 10 10
GRAD : 10
9
100
DEG→RAD, GRAD→DEG: | x | < 10
π
RAD→GRAD: | x | < – × 10
98
2
/ /
/ ˆÂÎ˚ /