Sharp EL-W516 EL-W506 , EL-516 , EL-W546 Operation Manual - Page 11

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13 z r g h / d n 4 p x C DEC (25) ⾳ BIN j @ / 25 @ z BIN 11001 HEX (1AC) @ h 1AC ⾳ BIN @ z BIN 110101100 ⾳ PEN @ r PEN 3203 ⾳ OCT @ g OCT 654 ⾳ DEC @ / 428. (1010 − 100) × 11 = [BIN] @ z ( 1010 & 100) k 11 = BIN 10010 BIN (111) ˠ NEG d 111 = BIN 1111111001 HEX (1FF) + OCT (512) = @ h 1FF @ g + 512 = OCT 1511 HEX (?) @ h HEX 349 j x M 2FEC − 2C9E @ h 2FEC  ˰ M1 & 2C9E m +) 2000 − 1901  ˰ M2 - M = 2000 &1901 m t M j x M HEX HEX HEX 34E 6FF A4D 1011 AND 101 = @ z 1011 [BIN] 4 101 = BIN 1 5A OR C3 = @ h 5A p [HEX] C3 = HEX DB NOT 10110 = [BIN] @ z n 10110 = BIN 1111101001 24 XOR 4 = @ g 24 x [OCT] 4 = OCT 20 B3 XNOR 2D = @ h B3 C [HEX] 2D = HEX FFFFFFFF61 ˠ DEC @ / -159. 14 [ : 7°31'49.44" ⾳ [10] j 7 [ 31 [ 49.44 @ : 71⎯ 626530 123.678 ⾳ [60] 123.678 @ : 123(40q40.8" 3h 30m 45s + 3 [ 30 [ 45 6h 45m 36s = [60] + 6 [ 45 [ 36 = 10(16 q21." 1234°56'12" + 1234 [ 56 [ 0°0'34.567" = [60] 12 + 0 [ 0 [ 34.567 = 1234(56q47." 3h 45m - 1.69h 3 [ 45 & 1.69 = = [60] @ : 2(3q36." sin 62°12'24" = [10] v 62 [ 12 [ 24 = 0.884635235 24° ⾳ ["] 24 [ N 4 86q400. 1500" ⾳ ['] 0 [ 0 [ 1500 N 5 25. 15 u E H ( ( x y = = 6 4 ⾳ r = θ = [°] j 6 H 4 @ u r: {: ( ( r = 14 θ = 36 [°] ⾳ x = y = 14 H 36 @ E X: Y: 7.211102551 33.69006753 11.32623792 8.228993532 16 K L V0 = 15.3 m/s t = 10 s V0t + ⎯12 gt2 = ? m j 15.3 k 10 + 2 @ Z k K 03 k 10 A = U 643.3325 125 yd = ? m j 125@ L 05 = U U 114.3 • Physical constants and metric conversions are shown in the tables. • Les constantes physiques et les conversions des unités sont indiquées sur les tableaux. • Physikalische Konstanten und metriche Umrechnungen sind in der Tabelle aufgelistet. • Las constants fisicas y conversiones métricas son mostradas en las tables. • Constantes fisicas e conversões métricas estão mostradas nas tablelas. • La constanti fisiche e le conversioni delle unità di misura vengono mostrate nella tabella. • De natuurconstanten en metrische omrekeningen staan in de tabellen hiernaast. • A fizikai konstansok és a metrikus átváltások a táblázatokban találhatók. • Fyzikální konstanty a převody do metrické soustavy jsou uvedeny v tabulce. • Fysikaliska konstanter och metriska omvandlingar visas i tabellerna. • Fysikaaliset vakiot ja metrimuunnokset näkyvät taulukoista. • Fysiske konstanter og metriske omskrivninger vises i tabellen. • • • Konstanta fisika dan konversi metrik diperlihatkan di dalam tabel K 01-52 01: c, c0 (m s-1) 19: µB (J T-1) 37: eV (J) 02: G (m3 kg-1 s-2) 20: µe (J T-1) 38: t (K) 03: gn (m s-2) 21: µN (J T-1) 39: AU (m) 04: me (kg) 22: µp (J T-1) 40: pc (m) 05: mp (kg) 06: mn (kg) 23: µn 24: µµ (J T-1) (J T-1) 41: M(12C) (kg mol-1) 42: -h (J s) 07: mµ (kg) 25: λc (m) 43: Eh (J) 08: 1u (kg) 26: λc, p (m) 44: G0 (s) 09: e (C) 27: σ (W m-2 K-4) 45: α-1 10: h (J s) 28: NA, L (mol-1) 46: mp/me 11: k (J K-1) 29: Vm (m3 mol-1) 47: Mu (kg mol-1) 12: µ0 (N A-2) 30: R (J mol-1 K-1) 48: λc, n (m) 13: ε0 (F m-1) 31: F (C mol-1) 49: c1 (W m2) 14: re (m) 32: RK (Ω) 50: c2 (m K) 15: α 33: -e/me (C kg-1) 51: Z0 (Ω) 16: a0 (m) 34: h/2me (m2 s-1) 52: atm (Pa) 17: R∞ (m-1) 35: γp (s-1 T-1) 18: Φ0 (Wb) 36: KJ (Hz V-1) x @ L 01-44 01: inˠcm 16: kgˠMC 31: calITˠJ 02: cmˠin 17: °Fˠ°C 32: JˠcalIT 03: ftˠm 18: °Cˠ°F 33: hpˠW 04: mˠft 19: gal (US)ˠL 34: Wˠhp 05: ydˠm 20: Lˠgal (US) 35: psˠW 06: mˠyd 21: gal (UK)ˠL 36: Wˠps 07: miˠkm 22: Lˠgal (UK) 37: kgf/cm2ˠPa 08: kmˠmi 23: fl oz(US)ˠmL 38: Paˠkgf/cm2 09: n miˠm 24: mLˠfl oz(US) 39: atmˠPa 10: mˠn mi 25: fl oz(UK)ˠmL 40: Paˠatm 11: acreˠm2 26: mLˠfl oz(UK) 41: mmHgˠPa 12: m2ˠacre 27: calthˠJ 42: PaˠmmHg 13: ozˠg 28: Jˠcalth 43: kgf·mˠN·m 14: gˠoz 29: cal15ˠJ 44: N·mˠkgf·m 15: lbˠkg 30: Jˠcal15 17 N (ENG) 100 m × 10 k = ? 100 N 3 4 k 10 N 3 0 = 1'000. 18 n J ⾳ [FIX, TAB = 1] j @ J 1 0 1 5 ÷ 9 = ANS 5 z 9 = U ANS × 9 = k 9 = *1 5 z 9 = U ⾳ [MDF] ANS × 9 = @ n k 9 = *2 U U ⾳ [NORM1] @ J 1 3 *1 ⎯5 9 × 9 = 5.5555555555555 × 10−1 × 9 *2 ⎯3 5 × 9 = 0.6 × 9 19 N (ALGB) f(x) = x3 − 3x2 + 2 j ; X @ 1 - 3 ; X A + 2 x = −1 N 1 S 1 e x = −0.5 A2 + B2 A = 2, B = 3 A = 2, B = 5 N 1 S 0.5 e @ * ; A A + ; B A N 1 2 e 3 e N 1 e 5 e 0.0 ⎯59 0.6 5.0 ⎯59 0.6 ⎯35 5 ⎯52 5.4 5.4 -2. 1 ⎯81 H 13 H 29 20 N (SOLVER) sin x − 0.5 j v ; X - 0.5 Start = 0 N 2 0 e e Start = 180 e 180 e e 30. 150. 21 _ H R v p c g o Q G sijhfabS V U DATA 95 b 1 0 S#a# 0 [SD] @ Z 0. 95 _ DATA SET= 1. 80 80 _ DATA SET= 2. 80 75 75 75 50 -x = _ DATA SET= 3. 75 H 3 _ DATA SET= 4. 50 _ t R DATA SET= 5. -x= 75.71428571 σx = t p σx= 12.37179148 n = t c n= 7. Σx = t g Σx= 530. Σx2 = t o Σx2= 41'200. sx = t v sx= 13.3630621 sx2 = A = sx2= 178.5714286 ( 95 & (⎯ 95s−x -x ) × 10 + 50 = ; R ) z ; v k 10 + 50 = 64.43210706

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13
z
r
g
h
/
d
n
4
p
x
C
DEC (25)
BIN
j
@
/
25
@
z
BIN
11001
HEX (1AC)
@
h
1AC
BIN
@
z
BIN
110101100
PEN
@
r
PEN
3203
OCT
@
g
OCT
654
DEC
@
/
428
.
(1010
100)
×
11
=
[BIN]
@
z
(
1010
&
100
)
k
11
=
BIN
10010
BIN (111)
±
NEG
d
111
=
BIN
1111111001
HEX (1FF)
+
OCT (512)
=
@
h
1FF
@
g
+
512
=
OCT
1511
HEX (?)
@
h
HEX
349
2FEC
2C9E
M
1
+
) 2000
1901
M
2
M
=
j
x
M
@
h
2FEC
&
2C9E
m
HEX
34
E
2000
&
1901
m
HEX
6
FF
t
M
j
x
M
HEX
A
4
D
1011 AND 101
=
[BIN]
@
z
1011
4
101
=
BIN
1
5A OR C3
=
[HEX]
@
h
5A
p
C3
=
HEX
DB
NOT 10110
=
[BIN]
@
z
n
10110
=
BIN
1111101001
24 XOR 4
=
[OCT]
@
g
24
x
4
=
OCT
20
B3 XNOR 2D
=
[HEX]
@
h
B3
C
2D
=
HEX
FFFFFFFF
61
±
DEC
@
/
-
159
.
14
[
:
7°31’49.44”
[10]
j
7
[
31
[
49
.
44
@
:
663
7
1250
123.678
[60]
123
.
678
@
:
123(40
q
40
.
8
"
3h 30m 45s +
6h 45m 36s = [60]
3
[
30
[
45
+
6
[
45
[
36
=
10(16
q
21
."
1234°56’12” +
0°0’34.567” = [60]
1234
[
56
[
12
+
0
[
0
[
34
.
567
=
1234(56
q
47
."
3h 45m – 1.69h
= [60]
3
[
45
&
1
.
69
=
@
:
2(3
q
36
."
sin 62°12’24”
= [10]
v
62
[
12
[
24
=
0
.
884635235
24°
[”]
24
[
N
4
86
q
400
.
1500”
[’]
0
[
0
[
1500
N
5
25
.
15
u
E
H
(
x
= 6
y
= 4
(
r
=
θ
=
[°]
j
6
H
4
@
u
r
:
{
:
7
.
211102551
33
.
69006753
(
r
= 14
θ
= 36 [°]
(
x
=
y
=
14
H
36
@
E
X
:
Y
:
11
.
32623792
8
.
228993532
16
K
L
V
0
=
15.3 m/s
t
=
10 s
V
0
t
+
1
2
gt
2
=
? m
j
15
.
3
k
10
+
2
@
Z
k
K
03
k
10
A
=
U
643
.
3325
125 yd
=
? m
j
125
@
L
05
=
U
U
114
.
3
Physical constants and metric conversions are shown in the tables.
Les constantes physiques et les conversions des unités sont
indiquées sur les tableaux.
Physikalische Konstanten und metriche Umrechnungen sind in
der Tabelle aufgelistet.
Las constants fisicas y conversiones métricas son mostradas
en las tables.
Constantes fisicas e conversões métricas estão mostradas nas
tablelas.
La constanti fisiche e le conversioni delle unità di misura vengono
mostrate nella tabella.
De natuurconstanten en metrische omrekeningen staan in de
tabellen hiernaast.
A fizikai konstansok és a metrikus átváltások a táblázatokban
találhatók.
Fyzikální konstanty a převody do metrické soustavy jsou uvedeny
v tabulce.
Fysikaliska konstanter och metriska omvandlingar visas i tabellerna.
Fysikaaliset vakiot ja metrimuunnokset näkyvät taulukoista.
Fysiske konstanter og metriske omskrivninger vises i tabellen.
Konstanta fisika dan konversi metrik diperlihatkan di dalam tabel.
K
01–52
01:
c
,
c
0
(m
s
–1
)
19:
µ
B
(J
T
–1
)
37:
e
V
(J)
02:
G
(m
3
kg
–1
s
–2
)
20:
µ
e
(J
T
–1
)
38:
t
(K)
03:
g
n
(m
s
–2
)
21:
µ
N
(J
T
–1
)
39:
AU
(m)
04:
m
e
(kg)
22:
µ
p
(J
T
–1
)
40:
pc
(m)
05:
m
p
(kg)
23:
µ
n
(J
T
–1
)
41:
M
(
12
C) (kg
mol
–1
)
06:
m
n
(kg)
24:
µ
µ
(J
T
–1
)
42:
h
-
(J s)
07:
m
µ
(kg)
25:
λ
c
(m)
43:
E
h
(J)
08:
1
u
(kg)
26:
λ
c
,
p
(m)
44:
G
0
(s)
09:
e
(C)
27:
σ
(W
m
–2
K
–4
)
45:
α
–1
10:
h
(J
s)
28:
N
A
,
L
(mol
–1
)
46:
m
p
/
m
e
11:
k
(J
K
–1
)
29:
V
m
(m
3
mol
–1
)
47:
M
u
(kg
mol
–1
)
12:
µ
0
(N
A
–2
)
30:
R
(J
mol
–1
K
–1
) 48:
λ
c
,
n
(m)
13:
ε
0
(F
m
–1
)
31:
F
(C
mol
–1
)
49:
c
1
(W
m
2
)
14:
r
e
(m)
32:
R
K
(
)
50:
c
2
(m
K)
15:
α
33: –
e
/
m
e
(C
kg
–1
)
51:
Z
0
(
)
16:
a
0
(m)
34:
h
/2
m
e
(m
2
s
–1
)
52: atm
(Pa)
17:
R
(m
–1
)
35:
γ
p
(s
–1
T
–1
)
18:
Φ
0
(Wb)
36:
K
J
(Hz
V
–1
)
x
@
L
01–44
01: in
±
cm
16: kg
±lb
31: cal
IT
±
J
02: cm
±
in
17:
°
F
±
°
C
32: J
±
cal
IT
03: ft
±
m
18:
°C
±
°F
33: hp
±
W
04: m
±
ft
19: gal (US)
±
L
34: W
±
hp
05: yd
±
m
20: L
±
gal (US)
35: ps
±
W
06: m
±
yd
21: gal (UK)
±
L
36: W
±
ps
07: mi
±
km
22: L
±
gal (UK)
37: kgf/cm
2
±
Pa
08: km
±
mi
23: fl
oz(US)
±
mL
38: Pa
±
kgf/cm
2
09: n mi
±
m
24: mL
±
oz(US)
39: atm
±
Pa
10: m
±
n mi
25: fl
oz(UK)
±
mL
40: Pa
±
atm
11: acre
±
m
2
26: mL
±
oz(UK)
41: mmHg
±
Pa
12: m
2
±
acre
27: cal
th
±
J
42: Pa
±
mmHg
13: oz
±
g
28: J
±
cal
th
43: kgf·m
±
N·m
14: g
±
oz
29: cal
15
±
J
44: N·m
±
kgf·m
15: lb
±
kg
30: J
±
cal
15
17
N
(ENG)
100 m
×
10 k
=
?
100
N
3
4
k
10
N
3
0
=
1
'
000
.
18
n
J
[FIX, TAB
=
1]
j
@
J
1
0
1
0
.
0
5
÷
9
=
ANS
5
z
9
=
5
9
U
0
.
6
ANS
×
9
=
k
9
=
*
1
5
.
0
5
z
9
=
5
9
U
0
.
6
[MDF]
@
n
3
5
ANS
×
9
=
k
9
=
*
2
2
5
5
U
U
5
.
4
[NORM1]
@
J
1
3
5
.
4
*
1
5
9
×
9 = 5.5555555555555
×
10
1
×
9
*
2
3
5
×
9 = 0.6 × 9
19
N
(ALGB)
f
(
x
)
=
x
3
3
x
2
+
2
j
;
X
@
1
-
3
;
X
A
+
2
x
=
1
N
1
S
1
e
-
2
.
x
=
0.5
N
1
S
0
.
5
e
1
1
8
A
2
+
B
2
@
*
;
A
A
+
;
B
A
A
=
2, B
=
3
N
1
2
e
3
e
H
13
A
=
2, B
=
5
N
1
e
5
e
H
29
20
N
(SOLVER)
sin
x
0.5
j
v
;
X
-
0
.
5
Start
=
0
N
2
0
e
e
30
.
Start
=
180
e
180
e
e
150
.
21
_
H
R
v
p
c
g
o
Q
G
s
i
j
h
f
a
b
S
V
U
DATA
95
80
80
75
75
75
50
b
1
0
@
Z
S#a# 0
[
SD
]
0
.
95
_
DATA SET=
1
.
80
_
DATA SET=
2
.
_
DATA SET=
3
.
75
H
3
_
DATA SET=
4
.
50
_
DATA SET=
5
.
x
=
t
R
x
=
75
.
71428571
σ
x
=
t
p
σ
x
=
12
.
37179148
n
=
t
c
n
=
7
.
Σ
x
=
t
g
Σ
x
=
530
.
Σ
x
2
=
t
o
Σ
x
2
=
41
'
200
.
sx
=
t
v
sx
=
13
.
3630621
sx
2
=
A
=
sx
2
=
178
.
5714286
(95
x
)
×
10
+
50
=
sx
(
95
&
;
R
)
z
;
v
k
10
+
50
=
64
.
43210706