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Appendix Appendiks
Apéndice Liite
Appendice Appendiks
Aanhangsel
Lampiran
Apêndice
Anhang
Appendice
Bilaga
Függelék
Dodatek
Dodatek
RCA502126-001V01
http://world.casio.com/edu/
#001
Math
MATH
'2c3e+
'1c2=
LINE
2'3+1
'2=
#002
1
2
11
3 — + 1— = 4 —
4
3
12
MATH
1'(()3e
1c4e+
Math
Math
1'(()1e2
c3=
LINE
3'1'4+
1'2'3=
1
1
4 – 3— = —
2
2
Math
MATH
4-1'(()
3e1c2=
LINE
4-3'1'2=
–1 –
#003
LINE
21((%)=
#004
LINE
150*20
1((%)=
#005
LINE
660/880
1((%)=
#006
LINE
2500+2500
*151((%)=
#007
LINE
3500-3500
*251((%)=
#008
LINE
168+98+
734=
-G*201((%)=
–2 –
#009
LINE
(500+300)
/5001((%)=
#010
LINE
(46-40)/
401((%)=
eeeeY8=
#011
LINE
2e0e30e=
#012
LINE
2e20e30e+
0e39e30e=
#013
LINE
2.255=
e
–3 –
e
#014
LINE
4 × 3 + 2.5 = 14.5
4 × 3 – 7.1 = 4.9
4*3+2.5=
A
d
YYYY
-7.1=
#015
LINE
9×6+3
= 1.425
5×8
9*6+3
1t(STO)e(B)
5*81t(STO)w(C)
–4 –
Se(B)/Sw(C)=
#016
LINE
Sf(Y)Ss(=)S)(X)
+2Sy(A)
s
*1
1=
*2
1=
*3
s
*4
G=
*5
2=
*6
–5 –
sG=3=
*7
sG=4=
*8
#017
MATH
Math
Sf(Y)Ss(=)S)(X)
w-S)(X)+1
Math
1s(SOLVE)
Math
*1
3=
Math
*2
1=
Math
=7==
Math
=13==
–6 –
Math
=21==
#018
LINE
Deg
s30)=
1s(sin–1)0.5)=
#019
LINE
w1(sinh)1)=
w5(cosh–1)1)=
#020
LINE
Deg
c15(π)1G(DRG')
2(r))=
c1001G(DRG')
3(g))=
–7 –
#021
MATH
Math
Deg
1c(cos–1)y1)
=
Rad
1c(cos–1)y1)
=
Math
#022
log216 = 4
Math
MATH
&2e16=
l21)(,)
16)=
LINE
#023
LINE
log16 = 1.204119983
l16)=
*1
#024
LINE
ln 90 (= loge90) = 4.49980967
i90)=
ln e = 1
iS5(e))=
–8 –
#025
e10 = 22026.46579
LINE
1i(e^)10=
#026
MATH
1.2 × 103 = 1200
Math
1.2*
1l($)3=
(1 + 1)2+2 = 16
Math
(1+1)62+2
=
#027
3
(52) = 15625
Math
(5w)
1w(x3)=
MATH
('
2 + 1) ('
2 – 1) = 1
LINE
(!2)+1)
(!2)-1)=
5 32 = 2
516(")32)=
2
#028
LINE
(–2) 3 = 1.587401052
(y2)6
2'3)=
–9 –
#029
LINE
3'
5 + 3 –27 = –1.290024053
1!(#)5)+
1!(#)y27)=
#030
LINE
1
= 12
1 1
–
3 4
(3E-4E)E=
#031
Math
MATH
7iS)(X))
c1fS5(e)=
LINE
7iS)(X))
1)(,)11)(,)
S5(e))=
#032
LINE
71/S)(X)w
1)(,)11)(,)5
1)(,)15y7)=
#033
MATH
LINE
Rad
17(F)s
S)(X))e'
15(π)c2=
17(F)s
S)(X))1)(,)
15(π)'2)=
–10 –
Math
#034
LINE
17(F)3S)(X)
w-5S)(X)+2
1)(,)21)(,)
15y12)=
#035
Math
MATH 1&(8)S)(X)
+1c1f5=
LINE
1&(8)S)(X)
+11)(,)
11)(,)5)=
#036
Deg
(X, Y) = ('
2, '
2) → (r, θ)
Math
MATH
1+(Pol)!2e
1)(,)!2e)=
LINE
1+(Pol)!2)
1)(,)!2))=
#037
LINE
Deg (r, θ) = (2, 30) → (X, Y)
1-(Rec)21)(,)
30)=
#038
LINE
(5+3)1E(x!)=
–11 –
#039
MATH
Math
1w(Abs)2-7=
LINE
1w(Abs)2-7)=
#040
LINE
1000
1.(Ran#)=
=
=
#041
LINE
101*(nPr)4=
101/(nCr)4=
–12 –
#042
MATH
Rad
7(sS)(X))
+cS)(X))
)we0f15(π)=
#043
Math
MATH
51t(STO)y(A)
S5(e)-1&(8)'
1cS)(X)1E(x!)
ee0fSy(A)=
Math
Math
101t(STO)y(A)
f=
Math
151t(STO)y(A)
f=
#044
LINE
1234=
W
W
–13 –
#045
LINE
123=
1W(←)
1W(←)
#046
MATH
Math
15(π)*'2c5=
Math
f
#047
MATH
Math
!2e*!3=
Math
f
#048
LINE
CMPLX
(1+3i)/
(2i)=
–14 –
#049
LINE
Deg
CMPLX
1+i
12(CMPLX)3('r∠θ )=
#050
MATH
CMPLX
Math
CMPLX
Math
CMPLX
Math
12(CMPLX)2(Conjg)
2+3i)=
#051
MATH
Deg
*1
1w(Abs)2+
2i=
*2
12(CMPLX)1(arg)
2+2i)=
#052
o = Σnx
Σ (x – o)2
n
2
x σ n –1 = Σ (x – o)
n–1
xσ n =
–15 –
#053
1Nc4(STAT)1(ON)
N3(STAT)
STAT
1(1-VAR)
1= 2= 3= 4=
5= 6= 7= 8=
9= 10=
STAT
STAT
A
#054
STAT
11(STAT)2(Data)
STAT
11(STAT)3(Edit)1(Ins)
STAT
ccccccccY
STAT
A
–16 –
#055
STAT
11(STAT)2(Data)e
STAT
c2= c2= 2=
2= 3= 4= 2=
STAT
A
#056
11(STAT)4(Sum)
STAT
1(Σx2)=
STAT
11(STAT)4(Sum)
2(Σx)=
#057
11(STAT)5(Var)
STAT
1(n)=
–17 –
STAT
11(STAT)5(Var)2(o)=
STAT
11(STAT)5(Var)
3(xσn)=
#058
11(STAT)6(MinMax)
STAT
1(minX)=
STAT
11(STAT)6(MinMax)
2(maxX)=
#059
11(STAT)7(Distr)
STAT
1(P( )311(STAT)
7(Distr)4('t))=
11(STAT)7(Distr)
3(R( )711(STAT)
7(Distr)4('t))=
–18 –
STAT
#060
o = Σnx
Σ (x – o)2
n
2
x σ n –1 = Σ (x – o)
n–1
Σy
p= n
2
y σ n = Σ (y – p)
n
2
y σ n –1 = Σ (y – p)
n–1
Σy – B.Σx
A=
n
n.Σxy – Σx .Σy
B= . 2
n Σx – (Σx)2
n .Σxy – Σx .Σy
r=
{n .Σx 2 – (Σx)2}{n .Σy 2 – (Σy)2}
y–A
m=
B
n = A + Bx
xσ n =
–19 –
#061
x
y
x
y
1.0
1.2
1.5
1.6
1.9
1.0
1.1
1.2
1.3
1.4
2.1
2.4
2.5
2.7
3.0
1.5
1.6
1.7
1.8
2.0
1Nc4(STAT)2(OFF)
N3(STAT)
STAT
2(A+BX)1=
1.2= 1.5=
1.6= 1.9=
2.1= 2.4=
2.5= 2.7=
3=
STAT
STAT
ce1=
1.1= 1.2=
1.3= 1.4=
1.5= 1.6=
1.7= 1.8=
2=
STAT
STAT
A
–20 –
#062
11(STAT)4(Sum)
STAT
5(Σxy)=
11(STAT)5(Var)
STAT
3(xσn)=
11(STAT)6(MinMax)
STAT
4(maxY)=
#063
11(STAT)7(Reg)
STAT
1(A)=
–21 –
STAT
11(STAT)7(Reg)
2(B)=
STAT
11(STAT)7(Reg)3(r)=
#064
STAT
*1
y311(STAT)
7(Reg)4(m)=
*2
211(STAT)7(Reg)
5(n)=
STAT
#065
Σy
Σx
Σx 2
–B
–C
n
n
n
2 2
2 .
.
Sxy Sx x – Sx y Sxx 2
B=
Sxx.Sx 2x 2 – (Sxx 2)2
Sx 2y.Sxx – Sxy.Sxx 2
C=
Sxx.Sx 2x 2 – (Sxx 2) 2
A=
( ) ( )
Sxx = Σx 2– (Σx)
n
(Σx . Σy)
Sxy = Σxy –
n
.Σx 2)
(
Σx
2
3
Sxx = Σx –
n
2 2
2 2
4
(
Σx
)
Sx x = Σx –
n
2
–22 –
2.
Sx 2y = Σx 2y – (Σx Σy)
n
– B + B 2 – 4C(A – y)
m1 =
2C
– B – B 2 – 4C(A – y)
m2 =
2C
n = A + Bx + Cx 2
#066
11(STAT)1(Type)
STAT
3(_+CX )
2
STAT
A
#067
11(STAT)7(Reg)
STAT
1(A)=
STAT
11(STAT)7(Reg)
2(B)=
–23 –
STAT
11(STAT)7(Reg)
3(C)=
#068
y = 3 → m1 = ?
STAT
311(STAT)7(Reg)
4(m1)=
y = 3 → m2 = ?
STAT
311(STAT)7(Reg)
5(m2)=
x=2→n=?
STAT
211(STAT)7(Reg)
6(n)=
#069
Σy – B.Σ lnx
n
n .Σ(lnx)y – Σlnx .Σy
B=
n .Σ(lnx)2 – (Σlnx)2
n .Σ(lnx)y – Σlnx .Σy
r=
{n .Σ(lnx)2 – (Σ lnx)2}{n .Σy2 – (Σy)2}
A=
y–A
m=e B
n = A + Blnx
–24 –
#070
.
A = exp Σlny – B Σx
(
)
n
n .Σxlny – Σx .Σ lny
B=
n .Σx 2 – (Σx)2
n .Σxlny – Σx .Σ lny
r=
{n .Σx 2 – (Σx)2}{n .Σ(ln y)2 – (Σln y)2}
lny – lnA
m=
B
n = Ae Bx
#071
.
A = exp Σlny – B Σx
B = exp
r=
( n )
.
.
( n Σxn .Σxy –– ΣxΣxΣ y )
ln
ln
( )2
n .Σxlny – Σx .Σ lny
2
{n .Σx 2 – (Σx)2}{n .Σ(ln y)2 – (Σln y)2}
lny – lnA
lnB
n = ABx
m=
–25 –
#072
.
A = exp Σlny – B Σlnx
(
)
n
n .Σlnxlny – Σlnx .Σ lny
B=
n .Σ(lnx)2 – (Σlnx)2
n .Σlnxlny – Σlnx .Σ lny
r=
{n .Σ(ln x)2 – (Σln x)2}{n .Σ(ln y)2 – (Σln y)2}
m=e
ln y – ln A
B
n = AxB
#073
Σy – B.Σx–1
n
Sxy
B=
Sxx
Sxy
r=
Sxx .Syy
A=
Sxx = Σ(x–1)2 –
(Σx–1)2
n
(Σy)
Syy = Σy2– n
2
–1.
Sxy = Σ(x–1)y – Σx Σy
n
B
m=
y–A
B
n=A+
x
–26 –
#074
11(STAT)1(Type)
STAT
4(In X)A11(STAT)
7(Reg)3(r)=
11(STAT)1(Type)
5(e^X)A11(STAT)
7(Reg)3(r)=
11(STAT)1(Type)
6(A•B^X)A11(STAT)
7(Reg)3(r)=
11(STAT)1(Type)
7(A•X^B)A11(STAT)
7(Reg)3(r)=
11(STAT)1(Type)
8(1/X)A11(STAT)
7(Reg)3(r)=
–27 –
STAT
STAT
STAT
STAT
#075
y = A + Blnx
x
y
29
50
74
103
118
1.6
23.5
38.0
46.4
48.9
1Nc4(STAT)2(OFF)
N3(STAT)4(ln X)
STAT
29= 50= 74=
103= 118=
ce1.6=
23.5=
38= 46.4=
48.9=
STAT
STAT
A11(STAT)7(Reg)
1(A)=
STAT
11(STAT)7(Reg)
2(B)=
STAT
11(STAT)7(Reg)
3(r)=
x = 80 → n = ?
STAT
8011(STAT)7(Reg)
5(n)=
y = 73 → m = ?
STAT
7311(STAT)7(Reg)
4(m)=
–28 –
#076
y = AeBx
x
y
6.9
12.9
19.8
26.7
35.1
21.4
15.7
12.1
8.5
5.2
1Nc4(STAT)2(OFF)
N3(STAT)5(e^X)
6.9= 12.9=
19.8=
26.7=
35.1=
ce21.4=
15.7=
12.1= 8.5=
5.2=
STAT
STAT
STAT
A11(STAT)7(Reg)
1(A)=
STAT
11(STAT)7(Reg)
2(B)=
STAT
11(STAT)7(Reg)
3(r)=
x = 16 → n = ?
STAT
1611(STAT)7(Reg)
5(n)=
y = 20 → m = ?
STAT
2011(STAT)7(Reg)
4(m)=
–29 –
#077
x
–1
3
5
10
y = ABx
1Nc4(STAT)2(OFF)
y
0.24 N3(STAT)6(A•B^X)
4
16.2
513
STAT
y1= 3= 5=
10=
STAT
ce0.24= 4=
16.2= 513=
STAT
A11(STAT)7(Reg)
1(A)=
STAT
11(STAT)7(Reg)
2(B)=
STAT
11(STAT)7(Reg)
3(r)=
x = 15 → n = ?
STAT
1511(STAT)7(Reg)
5(n)=
y = 1.02 → m = ?
STAT
1.0211(STAT)
7(Reg)4(m)=
–30 –
#078
x
28
30
33
35
38
y = AxB
1Nc4(STAT)2(OFF)
y
2410
3033
3895
4491
5717
N3(STAT)7(A•X^B)
STAT
28= 30= 33=
35= 38=
ce2410=
3033=
3895=
4491=
5717=
STAT
STAT
A11(STAT)7(Reg)
1(A)=
STAT
11(STAT)7(Reg)
2(B)=
STAT
11(STAT)7(Reg)
3(r)=
x = 40 → n = ?
STAT
4011(STAT)7(Reg)
5(n)=
y = 1000 → m = ?
STAT
100011(STAT)
7(Reg)4(m)=
–31 –
#079
y=A+B
x
x
y
1.1
2.1
2.9
4.0
4.9
18.3
9.7
6.8
4.9
4.1
1Nc4(STAT)2(OFF)
N3(STAT)8(1/X)
1.1= 2.1=
2.9= 4=
4.9=
ce18.3=
9.7= 6.8=
4.9= 4.1=
STAT
STAT
STAT
A11(STAT)7(Reg)
1(A)=
STAT
11(STAT)7(Reg)
2(B)=
STAT
11(STAT)7(Reg)
3(r)=
x = 3.5 → n = ?
STAT
3.511(STAT)
7(Reg)5(n)=
y = 15 → m = ?
STAT
1511(STAT)7(Reg)
4(m)=
–32 –
#080
Ab1+1=
#081
Aq7+1=
#082
Ac1F+1=
#083
AU30=
b
q
c
–33 –
#084
Ab13(BASE)c1(d)
5+13(BASE)c2(h)
5=
#085
10102 and 11002 = 10002
101013(BASE)
1(and)1100=
#086
10112 or 110102 = 110112
101113(BASE)
2(or)11010=
#087
10102 xor 11002 = 1102
101013(BASE)
3(xor)1100=
#088
11112 xnor 1012 = 11111111111101012
111113(BASE)
4(xnor)101=
#089
Not (10102) = 11111111111101012
13(BASE)
5(Not)1010)=
–34 –
#090
Neg (1011012) = 11111111110100112
13(BASE)6(Neg)
101101)=
#091
MATH
X + 2Y = 3
2X + 3Y = 4
N5(EQN)
Math
1(anX+bnY=cn)
Math
1= 2= 3=
2= 3= 4=
Math
=
Math
c
#092
MATH X2 + 2X + 3 = 0
N5(EQN)
Math
3(aX2+bX+c=0)
–35 –
Math
1= 2= 3=
Math
=
Math
=
#093
MATH
X–Y+Z=2
X+Y–Z=0
–X + Y + Z = 4
N5(EQN)
Math
2(anX+bnY+cnZ=dn)
1= y1= 1= 2=
1= 1= y1= 0=
y1= 1= 1= 4=
Math
Math
=
Math
c
–36 –
Math
c
#094
MATH X3 – 2X2 – X + 2 = 0
N5(EQN)
Math
4(aX3+bX2+cX+d=0)
Math
1= y2=
y1= 2=
Math
=
Math
c
Math
c
–37 –
#095
MATH X2 – 4X + 4 = 0
Math
N5(EQN)3(aX2+bX+c=0)
Math
1= y4= 4=
Math
=
#096
MAT
N6(MATRIX)
1(MatA)5(2×2)
2= 1= 1= 1=
14(MATRIX)1(Dim)
3(MatC)4(2×3)
1= 0= y1=
0= y1= 1=
MAT
#097
STO
MAT
14(MATRIX)2(Data)
1(MatA)1t(STO)
MAT
e(MatB)e
y1= y1= 2=
–38 –
#098
MAT
A14(MATRIX)3(MatA)
+14(MATRIX)4(MatB)
MAT
=
#099
MAT
14(MATRIX)3(MatA)*
14(MATRIX)4(MatB)
MAT
=
14(MATRIX)4(MatB)*
14(MATRIX)3(MatA)14(MATRIX)6(MatAns)
MAT
MAT
=
#100
MAT
3*14(MATRIX)
3(MatA)
MAT
=
–39 –
#101
det a11 = a11
det
a11 a12
= a11a22 – a12a21
a21 a22
a11 a12 a13
det a21 a22 a23
a31 a32 a33
= a11a22a33 + a12a23a31 + a13a21a32 – a13a22a31
– a12a21a33 – a11a23a32
MAT
14(MATRIX)7(det)1
4(MATRIX)3(MatA))=
#102
MAT
14(MATRIX)8(Trn)
14(MATRIX)5(MatC))
MAT
=
–40 –
#103
a11 –1 =
1
a11
a22 –a12
a11 a12 –1
–a21 a11
=
a21 a22
a11a22 – a12a21
a11 a12 a13 –1
a21 a22 a23
a31 a32 a33
a22a33 – a23a32 –a12a33 + a13a32 a12a23 – a13a22
–a21a33 + a23a31 a11a33 – a13a31 –a11a23 + a13a21
a21a32 – a22a31 –a11a32 + a12a31 a11a22 – a12a21
=
a11 a12 a13
det a21 a22 a23
a31 a32 a33
MAT
14(MATRIX)3(MatA)E
MAT
=
–41 –
#104
MAT
1w(Abs)14(MATRIX)
4(MatB))
MAT
=
#105
MAT
14(MATRIX)3(MatA)w
MAT
=
MAT
14(MATRIX)3(MatA)
1w(x3)
MAT
=
#106
VCT
N8(VECTOR)
1(VctA)2(2)1= 2=
A15(VECTOR)1(Dim)
3(VctC)1(3)2=
y1= 2=
–42 –
VCT
#107
STO
VCT
A15(VECTOR)2(Data)
1(VctA)1t(STO)
VCT
e(VctB)3= 4=
#108
VCT
A15(VECTOR)3(VctA)
+15(VECTOR)4(VctB)
VCT
=
#109
VCT
3*15(VECTOR)
3(VctA)
VCT
=
VCT
15(VECTOR)4(VctB)15(VECTOR)6(VctAns)
VCT
=
–43 –
#110
(a1, a2) . (b1, b2) = a1b1 + a2b2
(a1, a2, a3) . (b1, b2, b3) = a1b1 + a2b2 + a3b3
15(VECTOR)3(VctA)
15(VECTOR)7(Dot)
15(VECTOR)4(VctB)=
VCT
#111
(a1, a2) × (b1, b2) = (0, 0, a1b2 – a2b1)
(a1, a2, a3) × (b1, b2, b3)
= (a2b3 – a3b2, a3b1 – a1b3, a1b2 – a2b1)
VCT
15(VECTOR)3(VctA)*
15(VECTOR)4(VctB)
VCT
=
#112
Abs(a1, a2) = a12 + a22
Abs(a1, a2, a3) = a12 + a22 + a32
VCT
1w(Abs)15(VECTOR)
5(VctC))=
–44 –
#113
Deg
15(VECTOR)1(Dim)
1(VctA)1(3)
y1= 0= 1=
A15(VECTOR)1(Dim)
2(VctB)1(3)
1= 2= 0=
VctA • VctB
A15(VECTOR)3(VctA)
15(VECTOR)7(Dot)
15(VECTOR)4(VctB)=
VCT
VCT
VCT
Ans ÷ (Abs(VctA) × Abs(VctB))
/(1w(Abs)1
5(VECTOR)3(VctA))*
1w(Abs)15(VECTOR)
4(VctB)))=
cos–1 Ans
*1
VCT
VCT
1c(cos–1)G)=
VctA × VctB
15(VECTOR)3(VctA)*
15(VECTOR)4(VctB)=
Abs(VctAns)
VCT
VCT
1w(Abs)15(VECTOR)
6(VctAns))=
VctAns ÷ Ans
*2
VCT
15(VECTOR)
6(VctAns)/G=
–45 –
#114
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
mp
mn
me
mµ
a0
h
µN
µB
α
re
λc
γp
λcp
λcn
R∞
u
µp
µe
µn
µµ
F
e
NA
k
Vm
R
C0
C1
C2
σ
ε0
µ0
φ0
1.67262158 × 10–27 kg
1.67492716 × 10–27 kg
9.10938188 × 10–31 kg
1.88353109 × 10–28 kg
0.5291772083 × 10–10 m
6.62606876 × 10–34 Js
5.05078317 × 10–27 JT–1
927.400899 × 10–26 JT–1
1.054571596 × 10–34 Js
7.297352533 × 10–3
2.817940285 × 10–15 m
2.426310215 × 10–12 m
2.67522212 × 108 s–1T–1
1.321409847 × 10–15 m
1.319590898 × 10–15 m
10973731.568549 m–1
1.66053873 × 10–27 kg
1.410606633 × 10–26 JT–1
–928.476362 × 10–26 JT–1
–0.96623640 × 10–26 JT–1
–4.49044813 × 10–26 JT–1
96485.3415 Cmol–1
1.602176462 × 10–19 C
6.02214199 × 1023 mol–1
1.3806503 × 10–23 JK–1
22.413996 × 10–3 m3 mol–1
8.314472 Jmol–1 K–1
299792458 ms–1
3.74177107 × 10–16 Wm2
1.4387752 × 10–2 mK
5.670400 × 10–8 Wm–2 K–4
8.854187817 × 10–12 Fm–1
12.566370614 × 10–7 NA–2
2.067833636 × 10–15 Wb
–46 –
35
36
37
38
39
40
g
G0
Z0
t
G
atm
#115
9.80665 ms–2
7.748091696 × 10–5 S
376.730313461 Ω
273.15 K
6.673 × 10–11 m3 kg–1 s–2
101325 Pa
MATH
17(CONST)
Math
28(c0)=
#116
MATH
c0 = 1/ ε0 µ0
Math
1/!
Math
17(CONST)
32(ε0)
Math
17(CONST)
33(µ0)
Math
=
–47 –
#117
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
in ' cm
cm ' in
ft ' m
m ' ft
yd ' m
m ' yd
mile ' km
km ' mile
n mile ' m
m ' n mile
acre ' m2
m2 ' acre
gal (US) 'R
R' gal (US)
gal (UK) 'R
R' gal (UK)
pc ' km
km ' pc
km/h ' m/s
m/s ' km/h
oz ' g
g ' oz
lb ' kg
kg ' lb
atm ' Pa
Pa ' atm
mmHg ' Pa
Pa ' mmHg
hp ' kW
kW ' hp
kgf/cm2 ' Pa
Pa ' kgf/cm2
kgf • m ' J
J ' kgf • m
1 [inch] = 2.54 [cm]
1 [cm] = (1/2.54) [inch]
1 [ft] = 0.3048 [m]
1 [m] = (1/0.3048) [ft]
1 [yd] = 0.9144 [m]
1 [m] = (1/0.9144) [yd]
1 [mile] = 1.609344 [km]
1 [km] = (1/1.609344) [mile]
1 [n mile] = 1852 [m]
1 [m] = (1/1852) [n mile]
1 [acre] = 4046.856 [m2]
1 [m2] = (1/4046.856) [acre]
1 [gal (US)] = 3.785412 [R]
1 [R] = (1/3.785412) [gal (US)]
1 [gal (UK)] = 4.54609 [R]
1 [R] = (1/4.54609) [gal (UK)]
1 [pc] = 3.085678 × 1013 [km]
1 [km] = (1/(3.085678 × 1013)) [pc]
1 [km/h] = (5/18) [m/s]
1 [m/s] = (18/5) [km/h]
1 [oz] = 28.34952 [g]
1 [g] = (1/28.34952) [oz]
1 [lb] = 0.4535924 [kg]
1 [kg] = (1/0.4535924) [lb]
1 [atm] = 101325 [Pa]
1 [Pa] = (1/101325) [atm]
1 [mmHg] = 133.3224 [Pa]
1 [Pa] = (1/133.3224) [mmHg]
1 [hp] = 0.7457 [kW]
1 [kW] = (1/0.7457) [hp]
1 [kgf/cm2] = 98066.5 [Pa]
1 [Pa] = (1/98066.5) [kgf/cm2]
1 [kgf • m] = 9.80665 [J]
1 [J] = (1/9.80665) [kgf • m]
–48 –
35
36
37
38
39
40
lbf/in2 ' kPa
kPa ' lbf/in2
°F ' °C
°C ' °F
J ' cal
cal ' J
#118
LINE
1 [lbf/in2] = 6.894757 [kPa]
1 [kPa] = (1/6.894757) [lbf/in2]
t [°F] = (t – 32)/1.8 [°C]
t [°C] = (1.8 × t + 32) [°F]
1 [J] = (1/4.1858) [cal] *
1 [cal] = 4.1858 [J]
5cm = ? in
5
18(CONV)
02(cm'in)
=
–49 –
#119
LINE
100g = ? oz
100
18(CONV)
22(g'oz)
=
#120
LINE
–31°C = ? °F
y31
18(CONV)
38(°C'°F)
=
–50 –
CASIO COMPUTER CO., LTD.
6-2, Hon-machi 1-chome
Shibuya-ku, Tokyo 151-8543, Japan
SA0411-B
Printed in China
Imprimé en Chine
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