Sharp EL-506VB, Operation Examples

Page: 1 / 2

(5)
Åè
d/d x ( x
4
– 0.5 x
3
+ 6 x
2
) ª@KX™ 4 - 0.5 @K
x =2
X™
3
+
6
@KXL
d x =0.0002 @Å 2 ® ® 50.
x =3
®
3
®
0.001
®
130.500003
d x =0.001
∫
( x
2
– 5)d x
@KXL-
5
n=100 è 2 ® 8 ®® 138.
n=10
®®®
10
®
138.
(6) g
90°
→
[rad]
ª
90
@g 1.570796327
→
[g]
@g
100.
→
[°]
@g
90.
sin
–1
0.8 = [°] @S 0.8 = 53.13010235
→
[rad] @g 0.927295218
→
[g] @g 59.03344706
→
[°] @g 53.13010235
(9) \|
ª
3
\
1
\
2
+
4 \ 3 = 4
l
5
l
6 *
→
[a.xxx]
\
4.833333333
→
[d/c] @| 29
l
6
@¡ 2 \ 3 = 4.641588834
1.25
+
2
\
5
= 1.65
\ 1
l
13
l
20
1.65 ª 1.65 = 1.65
→
[a–] \ 1
l
13
l
20
→
[d/c] @| 33
l
20
→
[a.xxx] \ 1.65
(10) êîìíãâ†äà
á
DEC(25)
→
BIN
ª@í
25
@ê
11001.
b
HEX(1AC) @ì 1AC
→
BIN
@ê
110101100.
b
→
OCT @î 654.
0
→
DEC
@í
428.
BIN @ê( 1010 - 100 )
(1010–100)
×
11 =
*
11
=
10010.
b
BIN(111)
→
NEG ã 111 = 1111111001.
b
HEX(1FF)+
@ì
1FF
@î+
OCT(512)= 512 = 1511.
0
HEX(?)
@ì
349.
H
2FEC– ªOM@ì 2FEC -
2C9E=(A) 2C9E
; 34E. H
+)2000– 2000 -
1901=(B) 1901
; 6FF. H
(C) RM A4d.
H
1011 AND ª@ê 1011 †
101 = (BIN) 101 = 1.
b
5A OR C3 = (HEX) @ì 5A ä C3 = db.
H
NOT 10110 = @êâ 10110 = 1111101001.
b
(BIN)
24 XOR 4 = (OCT)
@î
24
à
4
=
20.
0
B3 XNOR
@ì
B3
á
2D = (HEX) 2D = FFFFFFFF61. H
→
DEC @í –159.
(11) o_
12°39’18”05 ª 12 o 39 o 18 o 5
→
[10] @_ 12.65501389
123.678 123.678 @_ 123°40’40.80
→
[60]
3h 3 o 30 o 45 +
6h45m36s = [60] 6 o 45 o 36 = 10°16’21.00
3h45m – 1.69h 3 o 45 - 1.69 =
= [60] @_ 2°03’36.00
sin62°12’24” = [10] s 62 o 12 o 24 = 0.884635235
(12)
°
(
→
r
θ
,
→
xy )
,≠
ª 6 @, 4 °1 [ r ] 7.211102551
@≠
[
θ
] 33.69006753
@≠ [ r ] 7.211102551
14
@,
36
°2
[ x ] 11.32623792
@≠ [ y ] 8.228993532
@≠
[ x ] 11.32623792
(13) ß
V
0
= 15.3m/s
ª
15.3
*
10
+
2
@•*
t = 10s ß 03 * 10 L= 643.3325
V
0
t+ – gt
2
= ?m
(14) ¥
125yd = ?m
ª
125
@¥
5
=
114.3






→
x = 6 r =
y
= 4
θ
= [°]






→
r = 14 x =
θ
= 36[°]
y
=
1
2
x y
12 41
8 13
5 2
23 200
15 71
Σ
x = x
1
+ x
2
+ ··· + x
n
Σ
x 2 = x
1
2 + x
2
2 + ··· + x
n
2
x =
Σ
x
n
Σ
xy
=
x
1
y
1
+
x
2
y
2
+ ··· +
x
n
y
n
Σ
y = y
1
+ y
2
+ ··· + y
n
Σ
y 2 = y
1
2 + y
2
2 + ··· + y
n
2
y =
Σ
y
n
σ
y =
Σ
y 2 – ny 2
n
sy =
Σ
y 2 – ny 2
n – 1
sx =
Σ
x 2 – nx 2
n – 1
σ
x =
Σ
x 2 – nx 2
n
(23)
t = ––––
x – x
σ
x
Function Dynamic range
Funktion zulässiger Bereich
Fonction Plage dynamique
Función Rango dinámico
Funzioni Campi dinamici
Functie Rekencapaciteit
Função Limite dinâmico
Funktion Definitionsområde
Funktio Dynaaminen ala
DEG: | x | < 10 10
(tan x : | x |
≠
90 (2n–1))*
sin x , cos x , RAD: | x | < –––
×
10 10
tan x (tan x : | x |
≠
– (2n–1))*
GRAD: | x | < —–
×
10 10
(tan x : | x |
≠
100 (2n–1))*
sin –1 x , cos –1 x | x |
≤
1
tan –1 x , 3
¿
x | x | < 10 100
In
x
, log
x
10 –99
≤
x
< 10 100
• y > 0: –10 100 < x log y < 100
yx • y = 0: 0 < x < 10 100
• y < 0: x = n (0 < | x | < 1: – = 2n–1, x
≠
0)*,
–10
100
< x log | y | < 100
• y > 0: –10 100 < – log y < 100 ( x
≠
0)
x
¿ y • y = 0: 0 < x < 10 100
• y < 0: x = 2n–1
(0 < | x | < 1 : – = n, x
≠
0)*,
–10
100
< – log | y | < 100
e
x
–10
100
< x
≤
230.2585092
10
x
–10
100
< x < 100
sinh x ,
cosh
x , | x |
≤
230.2585092
tanh x
sinh –1 x | x | < 10 50
cosh –1 x 1
≤
x < 10 50
tanh –1 x | x | < 1
x 2 | x | < 10 50
¿
x 0
≤
x < 10 100
x –1 | x | < 10 100 ( x
≠
0)
n! 0
≤
n
≤
69*
0
≤
r
≤
n
≤
9999999999*
n
P
r
–—– < 10
100
0
≤
r
≤
n
≤
9999999999*
0
≤
r
≤
69
n
C
r
–—– < 10 100
↔
DEG, D°M’S 0°00’00.01
≤
|
x
| < 10000°
x
,
y
→
r
,
θ √
x
2 + y 2
< 10 100
0
≤
r < 10 100
r ,
θ →
x , y
DEG: |
θ
| < 10 10
RAD: |
θ
| < —–
×
10 10
GRAD : |
θ
| < ––
×
10 10
DEG
→
RAD, GRAD
→
DEG: | x | < 10 100
DRG
|
RAD
→
GRAD: | x | < –
×
10 98
(A+B i )+(C+D i ) | A ± C | < 10 100
(A+B i )–(C+D i ) | B ± D | < 10 100
(A+B i )
×
(C+D i ) (AC – BD) < 10 100
(AD + BC) < 10 100
AC + BD
< 10 100
C 2 + D 2
(A+B i )÷(C+D i )
BC – AD
< 10 100
C 2 + D 2
C 2 + D 2
≠
0
→
DEC DEC : | x |
≤
9999999999
→
BIN BIN : 1000000000
≤
x
≤
1111111111
→
OCT 0
≤
x
≤
111111111
→
HEX OCT : 4000000000
≤
x
≤
7777777777
AND 0
≤
x
≤
3777777777
OR HEX : FDABF41C01
≤
x
≤
FFFFFFFFFF
XOR 0
≤
x
≤
2540BE3FF
XNOR
BIN : 1000000000
≤
x
≤
1111111111
0
≤
x
≤
111111111
NOT OCT : 4000000000
≤
x
≤
7777777777
0
≤
x
≤
3777777777
HEX : FDABF41C01
≤
x
≤
FFFFFFFFFF
0
≤
x
≤
2540BE3FE
BIN : 1000000001
≤
x
≤
1111111111
0
≤
x
≤
111111111
NEG OCT : 4000000001
≤
x
≤
7777777777
0
≤
x
≤
3777777777
HEX : FDABF41C01
≤
x
≤
FFFFFFFFFF
0
≤
x
≤
2540BE3FF
* (n, r: integer / ganze Zahlen / entier / entero / intero / geheel
getal / inteiros / heltal / kokonaisluku / / / /
/ )
π
180
10
9
π
2
π
180
10
9
1
x
1
x
1
x
1
x
n!
(n-r)!
n!
(n-r)!
π
2
EL-506V
EL-546V
(15) j
5÷9=ANS
ª@f@i
1
ANS
×
9= 5 / 9 = 0.6
[FIX,TAB=1]
*
9
=
*
1
5.0
5 / 9 =@j 0.6
*
9
=
*
2 5.4
@f@f@f
* 1 5.55555555555
×
10 –1
×
9
*
2
0.6
×
9
(16)
≤®
@m0
f ( x ) = x
3
–3 x
2
+2 @KX™ 3 - 3 @K
XL+
2
≤
x = –1 1 ±® –2.
x = –0.5
≤
0.5
±®
1.125
√
A
2
+B
2 @⁄(@KAL
+@KBL)≤
A = 2, B = 3 2
®
3
® 3.605551275
A = 2, B = 5 ≤® 5 ® 5.385164807
DATA
95
80
80
75
75
75
50
x
=
σ
x
=
Σ
x
=
Σ
x
2 =
sx
=
sx
2 =
x y
2 5
2 5
12 24
21 40
21 40
21 40
15 25
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.
89/336/, !
"! ! "#$ ! 93/68/.
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.
10 =
2
3
→
[a–]
1.25 + – = [a.xxx]
2
5
b
c
* 4
l
5
l
6=4—
5
6
b
c
(24) (8)
6+4=ANS ª 6 + 4 = 10.
ANS+5
+
5
=
15.
44+37=ANS 44 + 37 = 81.
√
ANS=
@⁄=
9.
(19)
m
(STAT0: SD)
°
(
→
t, P(, Q(, R()
@m30
0.
95 k 1.
80
k
2.
k 3.
75
&
3
k
6.
50 k 7.
R~ 75.71428571
Rp 12.37179148
Rz 530.
Rw
41200.
R£ 13.3630621
L=
178.5714286
°°°°°2 * 1 60 °
x = 60
→
P(t) ?
°°°°1)=
0.102012
t = –0.5
→
R(t) ? °°°°°4
0.5
±)=
0.691463
* 1 P(
(20)
m
(STAT1: a + bx )
@m31 0.
2
&
5
k
1.
k 2.
12
&
24
k
3.
21 & 40 & 3 k 6.
15
&
25
k
7.
Ra 1.050261097
Rb
1.826044386
Rr 0.995176343
R£
8.541216597
R¢ 15.67223812
x =3
→
y ’=? 3
@y
6.528394256
y =46
→
x ’=? 46 @x 24.61590706
PHYSICAL CONSTANTS
ß 01 — 40
No. SYMBOL UNIT No. SYMBOL UNIT No. SYMBOL UNIT
01 - c m·s –1 15 -
α
29 - V
m
m 3 ·mol –1
02 - G N·m 2 ·kg –2 16 - a
0
m 30 - R J·mol –1 ·K –1
03 - g m·s –2 17 - R ∞ m –1 31 - F C·mol –1
04 - m
e
kg 18 -
Φ
0
Wb 32 - R
H
Ω
05 -
m p
kg 19 -
µ
Β J·T –1 33 -
e/me
C·kg –1
06 -
m n
kg 20 -
µ
e
J·T –1 34 -
h/2me
J·s·kg –1
07 -
m
µ kg 21 -
µ
Ν J·T –1 35 -
γ
p
s –1 ·T –1
08 -
u
kg 22 -
µ
P
J·T –1 36 -
2e/h
Hz·V –1
09 - e C 23 -
µ
n J·T
–1
37 - eV J
10 - h J·s 24 -
µ
µ
J·T
–1
38 - t K
11 - k J·K
–1
25 -
λ
c m 39 - AU m
12 -
µ
0
H·m
–1
26 -
λ
cp m 40 - pc m
13 -
ε
0
F·m –1 27 -
σ
W·m –2 ·K –4
14 -
r
e
m 28 -
Ν
Α mol –1
METRIC CONVERSIONS
x @¥ 1 — 44
No. UNIT No. UNIT No. UNIT
1 in
→
cm 16 kg
→
lb 31 J
→
cal
IT
2 cm
→
in 17 °F
→
°C 32 cal
IT
→
J
3 ft
→
m 18 °C
→
°F 33 hp
→
W
4 m
→
ft 19 gal (US)
→ l
34 W
→
hp
5 yd
→
m 20
l →
gal (US) 35 ps
→
W
6 m
→
yd 21 gal (UK)
→ l
36 W
→
ps
7 mile
→
km 22
l →
gal (UK) 37 kgf/cm
2
→
Pa
8 km
→
mile 23 fl oz (US)
→
m
l
38 Pa
→
kgf/cm
2
9 n mile
→
m 24 m
l →
fl oz (US) 39 atm
→
Pa
10 m
→
n mile 25 fl oz (UK)
→
m
l
40 Pa
→
atm
11 acre
→
m 2 26 m
l
→
fl oz (UK) 41 mmHg
→
Pa
12 m 2
→
acre 27 J
→
cal 42 Pa
→
mmHg
13 oz
→
g 28 cal
→
J 43 kgf·m
→
J
14 g
→
oz 29 J
→
cal
15
44 J
→
kgf·m
15 lb
→
kg 30 cal
15
→
J
EL-506V/546V (Z0442E)_1
Operation Examples
Bedienungsbeispiele
Exemples d’opérations
Ejemplos de operación
Esempi di calcolo
Rekenvoorbeelden
Exemplos de Operação
Operationsexempel
Käyttöesimerkkejä
y
x
A
B
r
r
2
θ 1
θ
2
r
1
θ
i
∠
∠
+
i
i
+
+
i
–
i
–
(17) m (CPLX)
@m1
(12–6 i ) + (7+15 i ) – 12 - 6 Ü+ 7 + 15 Ü-
(11+4 i ) =
(
11
+
4
Ü)=
[ x ] 8.
@≠ [ y ] 5.
@≠
[ x ] 8.
6
×
(7–9 i )
×
6 *( 7 - 9 Ü)*
(–5+8 i ) =
(
5
±+
8
Ü)=
[ x ]
222.
@≠ [ y ] 606.
16
×
(sin30°+ 16
*(s
30
+Üu
30
)
i cos30°)÷(sin60°+ /(s 60 +Üu 60
i cos60°)=
)=
[ x ]
13.85640646
@≠ [ y ] 8.
°1 8 Ö 70 + 12 Ö 25
= [ r ] 18.5408873
@≠ [
θ
] 42.76427608
r
1 = 8,
θ
1 = 70°
r 2 = 12,
θ
2 = 25°
↓
r = ?,
θ
= ?°
(1 +
i
) °2 1 +Ü= 1.
↓
°1 [ r ] 1.414213562
r
= ?,
θ
= ?° @≠ [
θ
] 45.
°2(
2
-
3
Ü)L
(2 – 3 i )
2
= = [ x ] –5.
@≠
[ y ] 12.
1
=
( 1 +Ü)@•= [ x ] 0.5
1 + i
@≠
[ y ] 0.5



x + y – z = 9
6 x +6 y – z =17
14 x –7 y +2 z =42



2 x + 3 y = 4
5
x
+ 6
y
= 7
(18) m (3-VLE)
@m2
1 ® 1 ® 1 ±® 9 ®
6
®
6
®
1
±®
17
®
14 ® 7 ±® 2 ® 42
x = ?
®
[ x ] 3.238095238
y = ? ® [ y ] –1.638095238
z = ?
®
[ z ] –7.4
det(D) = ? ® [det(D)] 105.
@c 2 ® 3 ®® 4 ®
5 ® 6 ®® 7 ®
x = ? ®®®® [ x ] –1.
y
= ? ® [
y
] 2.
det(D) = ? ® [det(D)] –3.
(21)
m
(STAT2: ·· + cx
2
)
@m32 0.
12
&
41
k
1.
8 & 13 k 2.
5
&
2
k
3.
23 & 200 k 4.
15
&
71
k
5.
Ra 5.357506761
Rb
–3.120289663
R© 0.503334057
x =10
→
y’ =? 10
@y
24.4880159
y =22
→
x’ =? 22 @x 9.63201409
@≠
–3.432772026
@≠ 9.63201409
(22)
π
4
1
7 1
6
5
7
1
4
(1)
[]
1
3(5+2)= ª 3 ( 5 + 2 )= 21.
2
3
×
5+2= 3
*
5
+
2
= 17.
3
3
×
5+3
×
2= 3 * 5 + 3 * 2 = 21.
→ 1
@[
→ 2
]
→ 3
]
→ 2
[
(2)
+-*/()±E
45+285÷3= ª 45 + 285 / 3 = 140.
18+6
=
(
18
+
6
)/
15–8 ( 15 - 8 = 3.428571429
42
×
(–5)+120= 42
*
5
± +
120
=
–90.
* 1 ( ± 5) * 1
(5
×
10 3 )÷(4
×
10 –3 )= 5
E
3
/
4
E
3
± =
1250000.
(3)
34+57= 34
+
57
=
91.
45+57= 45 = 102.
68
×
25= 68
*
25
=
1700.
68
×
40= 40 = 2720.
(4)
sutSUT°
(sinh, sinh
–1
,
cosh, cosh –1 , tanh, tanh –1 )
VGIle
¡•L⁄™$#!q
Q%
sin60[°]=
ªs
60
=
0.866025403
cos–[rad]= @Gu(@V/
4
)=
0.707106781
tan
–1
1=[g] @G@T 1 = 50.
@G
(cosh 1.5 + ª(°°°1 * 1 1.5 +
sinh 1.5)
2
=
°°1
1.5
)L=
20.08553692
* 1 cosh
°°°°2(
5
/
tanh
–1
– =
7 )= 0.895879734
ln 20 =
I
20
=
2.995732274
log 50 = l 50 = 1.698970004
e
3
=
@e
3
= 20.08553692
10
1.7
= @¡ 1.7 = 50.11872336
– + – =
6 @•+ 7 @•= 0.309523809
8
–2
– 3
4 ×
5
2
= 8 ™ 2 ± - 3 ™ 4 *
5
L=
–2024.984375
(12 3 )
–
=
12 ™ 3 ™ 4 @•= 6.447419591
√
49 –
4 √
81 =
@⁄ 49 - 4 @$ 81 = 4.
3
√
27=
@#
27
=
3.
4! = 4 @!= 24.
10
P
3
= 10
@q
3
=
720.
5
C
2
= 5 @Q 2 = 10.
500
×
25%= 500
*
25
@% 125.
120÷400=?% 120 / 400 @% 30.
500+(500
×
25%)= 500 + 25 @% 625.
400–(400
×
30%)= 400 - 30 @% 280.
PRINTED IN CHINA/IMPRIMÉ EN CHINE/IMPRESO EN CHINA
00LUP(TINSZ0442EHZZ)
π
2
π
2
θ
= sin –1
x
,
θ
= tan –1
x
θ
= cos
–1 x
DEG –90
≤ θ ≤
90 0
≤ θ ≤
180
RAD – —
≤ θ ≤
— 0
≤ θ ≤ π
GRAD –100
≤ θ ≤
100 0
≤ θ ≤
200






(7)
RO;:?≥Ω
ª 8 * 2 OM 16.
24÷(8
×
2)= 24 /RM= 1.5
(8
×
2)
×
5= RM* 5 = 80.
ªOM
0.
$150
×
3:M
1
150 * 3 ; 450.
+)$250:M 2 =M 1 +250 250
;
250.
–)M
2
×
5% R M * 5 @ % 35.
M
@:RM
665.
$1= ¥140 140 OY 140.
¥33,775=$? 33775
/RY=
241.25
$2,750=¥? 2750 *RY= 385000.
[EL-506V]
π
r 2
⇒
F1
@V@KY
LO≥
F1
3 OY 3.
V = ?
R≥*
4
/
3
=
37.69911184
24 = 2.4...(A) 24 /( 4 + 6 )= 2.4
4+6 3
*@?+
60
/
3
×
(A)+60÷(A)=
@?= 32.2
4
3
F2
4
3 1
2
3– + – = [a–]
b
c
8
2