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EL-506V
EL-546V
Operation Examples
Bedienungsbeispiele
Exemples d'opérations
Ejemplos de operación
Esempi di calcolo
Rekenvoorbeelden
Exemplos de Operação
Operationsexempel
Käyttöesimerkkejä
PRINTED IN CHINA/IMPRIMÉ EN CHINE/IMPRESO EN CHINA
00LUP(TINSZ0442EHZZ)
(1)
1
3(5+2)=
3
5
2
2
3
3 5+2=
3
5
2
3 5+3 2=
3
5
3
2
1
2
3
2
(2)
45+285÷3=
45
285
3
18+6
18
6
=
15–8
15
8
3.428571429
42 (–5)+120=
42
5
120
*
1
(
5)
*
1
(5 10
3
)÷(4 10
–3
)= 5
3
4
3
(3)
34+57=
34
57
45+57=
45
68 25=
68
25
68 40=
40
(4)
(sinh, sinh
cosh, cosh
–1
, tanh, tanh
–1
)
sin60[°]=
60
0.866025403
cos–[rad]=
4
4
0.707106781
–1
tan
1=[g]
1
(cosh 1.5 +
*
1
1.5
2
sinh 1.5)
=
1.5
20.08553692
*
1
cosh
5
5
–1
tanh
– =
7
7
0.895879734
ln 20 =
20
2.995732274
log 50 =
50
1.698970004
3
e
=
3
20.08553692
1.7
10
=
1.7
50.11872336
1
1
6
7
0.309523809
– + – =
6
7
–2
4
2
8
– 3
5
=
8
2
3
4
5
–2024.984375
1
–
12
3
4
6.447419591
3
4
(12
)
=
4
49 –
81 =
49
4
81
3
27=
27
4! =
4
P
=
10
3
10
3
C
=
5
2
5
2
500 25%=
500
25
120÷400=?%
120
400
500+(500 25%)= 500
25
400–(400 30%)=
400
30
–1
–1
= sin
x ,
= tan
x
= cos
DEG
–90
90
0
– —
—
RAD
0
2
2
GRAD
–100
100
0
(5)
4
3
2
d/dx (x
– 0.5x
+ 6x
)
4
0.5
x=2
3
6
dx=0.0002
2
x=3
3
0.001
dx=0.001
8
2
(x
– 5)dx
5
2
n=100
2
8
n=10
10
(6)
90°
[rad]
90
1.570796327
[g]
[°]
–1
sin
0.8 = [°]
0.8
53.13010235
[rad]
0.927295218
[g]
59.03344706
[°]
53.13010235
(7)
F2
8
2
24÷(8 2)=
24
(8 2) 5=
5
$150 3:M
150
3
1
+)$250:M
2
=M
1
+250
250
–)M
5%
5
2
M
$1= ¥140
140
¥33,775=$?
33775
$2,750=¥?
2750
[EL-506V]
r
2
F1
4
3
3
V = ?
4
3
37.69911184
24 = 2.4...(A)
24
4
6
4+6
3
60
3 (A)+60÷(A)=
(8)
6+4=ANS
6
4
ANS+5
5
44+37=ANS
44
37
ANS =
(9)
1
4
3
1
b
3– + – = [a–]
c
2
3
4
3
[a.xxx]
[d/c]
2
3
2
10 =
2
1.25 + – = [a.xxx]
1.25
2
5
b
[a–]
c
1.65
1.65
b
[a–]
c
[d/c]
[a.xxx]
5
* 4
5
6 =4—
l
l
6
(10)
DEC(25) BIN
25
HEX(1AC)
1AC
BIN
OCT
DEC
21.
BIN
1010
17.
21.
(1010–100) 11 =
11
BIN(111) NEG
111
HEX(1FF)+
1FF
OCT(512)=
512
HEX(?)
2FEC–
2C9E=(A)
2C9E
+)2000–
2000
140.
1901=(B)
1901
(C)
1011 AND
1011
101 = (BIN)
101
–90.
5A OR C3 = (HEX)
5A
C3
1250000.
NOT 10110 =
10110
(BIN)
24 XOR 4 = (OCT)
24
4
B3 XNOR
B3
2D = (HEX)
2D
91.
DEC
102.
1700.
(11)
2720.
12°39'18"05
12
39
–1
[10]
,
123.678
123.678
[60]
3h30m45s +
3
30
45
6h45m36s = [60]
6
45
36
3h45m – 1.69h
3
45
1.69
= [60]
sin62°12'24" = [10]
62
12
50.
(12)
( r ,
xy)
6
4
x = 6
r =
[ ]
y = 4
= [°]
[ r ]
14
36
r = 14
x =
[y]
= 36[°]
y =
[x]
(13)
V
= 15.3m/s
15.3
10
0
t = 10s
03
10
1
2
V
t+ – gt
= ?m
0
2
(14)
125yd = ?m
125
4.
3.
(15)
24.
5÷9=ANS
720.
ANS 9=
5
9
10.
[FIX,TAB=1]
9
*
1
125.
5
9
9
*
2
30.
625.
1
–1
*
5.55555555555 10
9
280.
*
2
0.6 9
(16)
3
2
f (x) = x
–3x
+2
2
x = –1
1
x = –0.5
0.5
2
2
A
+B
A = 2, B = 3
2
3
A = 2, B = 5
5
–1
x
(17)
(CPLX)
180
(12–6i) + (7+15i) – 12
6
200
(11+4i) =
11
4
[y]
[x]
6 (7–9i)
6
7
9
(–5+8i) =
5
8
[y]
50.
130.500003
16 (sin30°+
16
30
icos30°)÷(sin60°+
60
icos60°)=
[x]
[y]
138.
y
138.
8
70
A
[r]
r
r
1
[ ]
B
r
1
2
2
x
r1 = 8, 1 = 70°
r2 = 12, 2 = 25°
100.
90.
r = ?,
= ?°
(1 + i)
1
[r]
r = ?,
= ?°
[ ]
2
2
(2 – 3i)
=
[x]
[y]
1
1
16.
=
1 + i
[y]
1.5
80.
0.
(18)
(3-VLE)
450.
250.
35.
x + y – z = 9
1
1
1
665.
6x+6y – z =17
6
6
1
14x–7y+2z =42
14
7
140.
x = ?
[x]
241.25
y = ?
[y]
385000.
z = ?
[z]
det(D) = ?
[det(D)]
F1
3.
2x + 3y = 4
2
3
5x + 6y = 7
5
6
x = ?
2.4
y = ?
[y]
det(D) = ?
[det(D)]
32.2
(19)
(STAT0: SD)
10.
DATA
15.
95
80
95
81.
80
80
9.
75
75
75
75
50
50
x
2
x
4
5
6 *
l
l
x
4.833333333
x
29
6
l
sx
sx
3
4.641588834
x = 60
P(t) ?
5
1.65
t = –0.5
R(t) ?
1
13
20
l
l
0.5
1.65
*
1
P(
1
13
20
l
l
33
20
l
1.65
(20)
(STAT1: a+bx)
x
y
2
2
5
2
5
12
12
24
21
21
40
15
21
40
b
11001.
21
40
15
25
b
110101100.
0
654.
428.
x=3
y'=?
3
100
y=46
x'=?
46
b
10010.
b
1111111001.
(21)
(STAT2: ··+cx
0
1511.
x
y
H
349.
12
41
12
2FEC
8
13
8
H
34E.
5
2
5
23 200
23
H
6FF.
15
71
15
H
A4d.
b
1.
10
x=10 y'=?
H
db.
y=22 x'=?
22
b
1111101001.
0
20.
(22)
H
FFFFFFFF61.
–159.
x = x n
x
2
– nx
2
sx =
18
5
n – 1
12.65501389
y
y =
123°40'40.80
n
y
2
– ny
2
sy =
n – 1
10°16'21.00
2°03'36.00
(23)
24
0.884635235
[ r ]
7.211102551
33.69006753
7.211102551
[x]
11.32623792
8.228993532
11.32623792
2
643.3325
5
114.3
x – x
t = ––––
x
1
0.6
5.0
0.6
5.4
3
3
–2.
1.125
3.605551275
5.385164807
7
15
[x]
8.
5.
i
8.
[x]
222.
606.
i
30
60
13.85640646
8.
i
12
25
18.5408873
42.76427608
1.
1.414213562
45.
3
–5.
12.
–
i
[x]
0.5
–
0.5
i
9
17
2
42
3.238095238
–1.638095238
–7.4
105.
4
7
[x]
–1.
2.
–3.
( t, P(, Q(, R()
(24)
Function
Funktion
0.
Fonction
1.
Función
2.
Funzioni
3.
Functie
6.
3
Função
7.
Funktion
Funktio
75.71428571
12.37179148
530.
41200.
13.3630621
178.5714286
1
*
60
0.102012
sin x, cos x,
tan x
0.691463
sin
–1
x , cos
tan
–1
x,
In x , log x
0.
y x
5
1.
2.
24
3.
6.
40
3
25
7.
x y
1.050261097
1.826044386
0.995176343
8.541216597
e x
15.67223812
6.528394256
10 x
24.61590706
sinh x, cosh x,
tanh x
sinh
–1
x
2
)
cosh
–1
0.
tanh
–1
x
41
1.
x
2
13
2.
x
2
3.
200
4.
–1
x
5.
71
n!
5.357506761
–3.120289663
P
n
r
0.503334057
24.4880159
9.63201409
–3.432772026
C
n
r
9.63201409
DEG, D°M'S
x, y
r,
x
2
– nx
2
x =
n
r,
x, y
x = x
+ x
+ ··· + x
1
2
n
2
= x
2
+ x
2
+ ··· + x
2
x
1
2
n
DRG |
y
2
– ny
2
y =
n
(A+Bi)+(C+Di) | A ± C | < 10
(A+Bi)–(C+Di) | B ± D | < 10
xy = x
y
+ x
y
+ ··· + x
y
1
1
2
2
n
n
y = y
+ y
+ ··· + y
1
2
n
(A+Bi) (C+Di) (AC – BD) < 10
2
= y
2
+ y
2
+ ··· + y
2
y
1
2
n
(A+Bi)÷(C+Di) BC – AD
DEC
BIN
OCT
HEX
AND
OR
XOR
XNOR
NOT
NEG
* (n, r: integer / ganze Zahlen / entier / entero / intero / geheel
getal / inteiros / heltal / kokonaisluku /
This equipment complies with the requirements of Directive 89/336/
EEC as amended by 93/68/EEC.
Dieses Gerät entspricht den Anforderungen der EG-Richtlinie 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,
gewijzigd door 93/68/EEG.
Dette udstyr overholder kravene i direktiv nr. 89/336/EEC med tillæg
nr. 93/68/EEC.
Quest' apparecchio è conforme ai requisiti della direttiva 89/336/EEC
come emendata dalla direttiva 93/68/EEC.
Este equipamento obedece às exigências da directiva 89/336/CEE na
sua versão corrigida pela directiva 93/68/CEE.
Este aparato satisface las exigencias de la Directiva 89/336/CEE
modificada por medio de la 93/68/CEE.
Denna utrustning uppfyller kraven enligt riktlinjen 89/336/EEC så
som kompletteras av 93/68/EEC.
Dette produktet oppfyller betingelsene i direktivet 89/336/EEC i
endringen 93/68/EEC.
Tämä laite täyttää direktiivin 89/336/EEC vaatimukset, jota on
muutettu direktiivillä 93/68/EEC.
PHYSICAL CONSTANTS
No. SYMBOL UNIT
01 - c
02 - G
03 - g
04 - m
e
05 - m
p
06 - m
n
07 - m
08 - u
09 - e
10 - h
11 - k
12 -
13 -
r
14 -
e
METRIC CONVERSIONS
No.
UNIT
1
in cm
2
cm in
3
ft m
4
m ft
5
yd m
6
m yd
7
mile km
8
km mile
9
n mile m
10
m n mile
11
acre m
12
m
13
oz g
14
g oz
15
lb kg
Dynamic range
zulässiger Bereich
Plage dynamique
Rango dinámico
Campi dinamici
Rekencapaciteit
Limite dinâmico
Definitionsområde
Dynaaminen ala
10
DEG:
| x | < 10
(tan x : | x |
90 (2n–1))*
RAD:
| x | < –––
10
10
180
(tan x : | x |
– (2n–1))*
2
10
GRAD:
| x | < —–
10
10
9
(tan x : | x |
100 (2n–1))*
–1
x
| x |
1
3
x
| x | < 10
100
10
–99
x < 10
100
• y > 0:
–10
100
< x log y < 100
• y = 0:
0 < x < 10
100
1
• y < 0:
x = n (0 < | x | < 1: – = 2n–1, x
0)*,
x
–10
100
< x log | y | < 100
1
• y > 0:
–10
100
< – log y < 100 (x
0)
x
• y = 0:
0 < x < 10
100
• y < 0:
x = 2n–1
1
(0 < | x | < 1 : – = n, x
0)*,
x
1
–10
100
< – log | y | < 100
x
–10
100
< x
230.2585092
–10
100
< x < 100
| x |
230.2585092
| x | < 10
50
1
x < 10
50
x
| x | < 1
| x | < 10
50
0
x < 10
100
100
| x | < 10
(x
0)
0
n
69*
0
r
n
9999999999*
n!
100
–—– < 10
(n-r)!
0
r
n
9999999999*
0
r
69
n!
100
–—– < 10
(n-r)!
0°00'00.01
| x | < 10000°
< 10
100
x
2
+ y
2
100
0
r < 10
DEG:
|
| < 10
10
RAD:
|
| < —–
10
10
180
10
GRAD :
|
| < ––
10
10
9
100
DEG RAD, GRAD DEG: | x | < 10
RAD GRAD: | x | <
–
10
98
2
100
100
100
(AD + BC) < 10
100
AC + BD
100
< 10
2
2
C
+ D
< 10
100
2
2
C
+ D
C
2
+ D
2
0
DEC
:
| x |
9999999999
BIN
:
1000000000
1111111111
x
0
x
111111111
OCT
:
4000000000
x
7777777777
0
x
3777777777
HEX
:
FDABF41C01
x
FFFFFFFFFF
0
2540BE3FF
x
BIN
:
1000000000
x
1111111111
0
x
111111111
OCT
:
4000000000
x
7777777777
0
x
3777777777
HEX
:
FDABF41C01
FFFFFFFFFF
x
0
x
2540BE3FE
BIN
:
1000000001
x
1111111111
0
x
111111111
OCT
:
4000000001
x
7777777777
0
x
3777777777
HEX
:
FDABF41C01
FFFFFFFFFF
x
0
x
2540BE3FF
/
/
/
)
89/336/
,
93/68/
.
01 — 40
No. SYMBOL UNIT
No. SYMBOL UNIT
m·s
–1
15 -
29 - V
m
3
·mol
m
a
N·m
2
·kg
–2
16 -
m
30 - R
J·mol
–1
0
m·s
–2
17 - R
m
–1
31 - F
C·mol
–1
kg
18 -
Wb
32 - R
0
H
kg
19 -
J·T
–1
33 - e/me
C·kg
–1
kg
20 -
J·T
–1
34 - h/2me
J·s·kg
–1
e
kg
21 -
J·T
–1
35 -
s
–1
·T
–1
p
kg
22 -
J·T
–1
36 - 2e/h
Hz·V
–1
P
–1
C
23 -
J·T
37 - eV
J
n
J·s
24 -
J·T
–1
38 - t
K
J·K
–1
25 -
m
39 - AU
m
c
H·m
–1
26 -
m
40 - pc
m
cp
–1
–2
–4
F·m
27 -
W·m
·K
m
28 -
mol
–1
x
1 — 44
No.
UNIT
No.
UNIT
16
kg lb
31
J cal
IT
17
°F °C
32
cal
J
IT
18
°C °F
33
hp W
gal (US) l
19
34
W hp
l gal (US)
20
35
ps W
gal (UK) l
21
36
W ps
l gal (UK)
22
37
kgf/cm
2
Pa
23
fl oz (US) ml
38
Pa kgf/cm
2
24
ml fl oz (US)
39
atm Pa
25
fl oz (UK) ml
40
Pa atm
2
26
ml fl oz (UK)
41
mmHg Pa
2
acre
27
J cal
42
Pa mmHg
28
cal J
43
kgf·m J
29
J cal
44
J kgf·m
15
30
cal
J
15
/
–1
·K
–1
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Summary of Contents for Sharp EL-506VB
- Page 1 (19) (STAT0: SD) ( t, P(, Q(, R() (24) EL-506V EL-546V Function Dynamic range 6+4=ANS DATA Funktion zulässiger Bereich ANS+5 Fonction Plage dynamique Función Rango dinámico Operation Examples 44+37=ANS Funzioni Campi dinamici Bedienungsbeispiele ANS = Functie Rekencapaciteit Exemples d’opérations Função Limite dinâmico Ejemplos de operación Funktion...
- Page 2 ENGLISH SVENSKA • Refer also to the quick reference card. • Vi hänvisar också till snabbreferenskort. Physical Constants Metric Conversions Metriska Omvandlingar Fysiska Konstanter Remarks Remarks Konstant Konstant Förklaring Förklaring Constant Constant : inch fl oz(US) : fluid ounce(US) : tum fl oz(US) : ounce för vätska (USA) 01 Ljusets hastighet i vakuum 24 Muonmagnetiskt moment...