User manual - fx-500ES_Appendix

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fx-500ES

Appendix

Apéndice

Appendice Lampiran

Apêndice

RCA502135-001V01

http://world.casio.com/edu/

Summary of content (34 pages)

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fx-500ES Appendix Apéndice Appendice Lampiran Apêndice RCA502135-001V01 http://world.casio.
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#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= #003 LINE 21((%)= –1 –
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#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((%)= #009 LINE (500+300) /5001((%)= –2 –
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#010 LINE (46-40)/ 401((%)= eeeeY8= #011 LINE 2e0e30e= #012 LINE 2e20e30e+ 0e39e30e= #013 LINE 2.
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#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 5×8 = 1.
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#016 Deg LINE s30)= 1s(sin–1)0.
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#020 log216 = 4 Math MATH &2e16= LINE #021 l21)(,) 16)= LINE log16 = 1.204119983 l16)= *1 #022 LINE ln 90 (= loge90) = 4.49980967 i90)= ln e = 1 iS5(e))= #023 LINE e10 = 22026.
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#024 MATH 1.2 × 103 = 1200 Math 1.2* 1l($)3= (1 + 1)2+2 = 16 Math (1+1)62+2 = #025 3 (52) = 15625 Math (5w) W= MATH (' 2 + 1) (' 2 – 1) = 1 LINE (!2)+1) (!2)-1)= 5 32 = 2 516(")32)= #026 2 LINE (–2) 3 = 1.587401052 (y2)6 2'3)= #027 LINE 3' 5 + 3 –27 = –1.
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#028 LINE 1 = 12 1 1 – 3 4 (3E-4E)E= #029 Deg (X, Y) = (' 2, ' 2) → (r, θ) Math MATH 1+(Pol)!2e 1)(,)!2e)= LINE 1+(Pol)!2) 1)(,)!2))= #030 LINE Deg (r, θ) = (2, 30) → (X, Y) 1-(Rec)21)(,) 30)= #031 LINE (5+3)1E(x!)= #032 Math MATH LINE D2-7= D2-7)= –8 –
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#033 LINE 1000 1.
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#036 LINE 123= 1W(←) 1W(←) #037 MATH Math 15(π)*'2c5= Math f #038 MATH Math !2e*!3= Math f –10 –
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#039 o = Σnx Σ (x – o)2 n 2 x σ n –1 = Σ (x – o) n–1 xσ n = #040 1Nc4(STAT)1(ON) N2(STAT) STAT 1(1-VAR) 1= 2= 3= 4= 5= 6= 7= 8= 9= 10= STAT STAT A #041 STAT 11(STAT)2(Data) STAT 11(STAT)3(Edit)1(Ins) –11 –
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STAT ccccccccY STAT A #042 STAT 11(STAT)2(Data)e STAT c2= c2= 2= 2= 3= 4= 2= STAT A #043 11(STAT)4(Sum) STAT 1(Σx2)= STAT 11(STAT)4(Sum) 2(Σx)= –12 –
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#044 11(STAT)5(Var) STAT 1(n)= STAT 11(STAT)5(Var)2(o)= STAT 11(STAT)5(Var) 3(xσn)= #045 11(STAT)6(MinMax) STAT 1(minX)= STAT 11(STAT)6(MinMax) 2(maxX)= –13 –
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#046 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 .
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#047 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) N2(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.
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#048 11(STAT)4(Sum) STAT 5(Σxy)= 11(STAT)5(Var) STAT 3(xσn)= 11(STAT)6(MinMax) STAT 4(maxY)= –16 –
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#049 11(STAT)7(Reg) STAT 1(A)= STAT 11(STAT)7(Reg) 2(B)= STAT 11(STAT)7(Reg)3(r)= #050 STAT *1 y311(STAT) 7(Reg)4(m)= *2 211(STAT)7(Reg) 5(n)= STAT –17 –
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#051 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.
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#052 11(STAT)1(Type) STAT 3(_+CX2) STAT A #053 11(STAT)7(Reg) STAT 1(A)= STAT 11(STAT)7(Reg) 2(B)= STAT 11(STAT)7(Reg) 3(C)= –19 –
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#054 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)= #055 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 .
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#056 . 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 #057 . 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 .
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#058 . 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 #059 Σy – B.Σx–1 n Sxy B= Sxx Sxy r= Sxx .Syy A= Sxx = Σ(x–1)2 – (Σx–1)2 (Σy) Syy = Σy2– n n 2 –1.
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#060 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)= –23 – STAT STAT STAT STAT
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#061 y = A + Blnx x y 29 50 74 103 118 1.6 23.5 38.0 46.4 48.9 1Nc4(STAT)2(OFF) N2(STAT)4(ln X) STAT 29= 50= 74= 103= 118= ce1.6= 23.5= 38= 46.4= 48.
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#062 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) N2(STAT)5(e^X) 6.9= 12.9= 19.8= 26.7= 35.1= ce21.4= 15.7= 12.1= 8.5= 5.
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#063 x –1 3 5 10 y = ABx 1Nc4(STAT)2(OFF) y 0.24 N2(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.
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#064 y = AxB x y 28 30 33 35 38 2410 3033 3895 4491 5717 1Nc4(STAT)2(OFF) N2(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)= –27 –
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#065 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) N2(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.
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#066 MATH X + 2Y = 3 2X + 3Y = 4 N3(EQN) Math 1(anX+bnY=cn) Math 1= 2= 3= 2= 3= 4= Math = Math c #067 MATH X2 + 2X + 3 = 0 N3(EQN) Math 3(aX2+bX+c=0) Math 1= 2= 3= –29 –
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Math = Math = #068 MATH X–Y+Z=2 X+Y–Z=0 –X + Y + Z = 4 N3(EQN) Math 2(anX+bnY+cnZ=dn) 1= y1= 1= 2= 1= 1= y1= 0= y1= 1= 1= 4= Math Math = Math c Math c –30 –
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#069 MATH X3 – 2X2 – X + 2 = 0 N3(EQN) Math 4(aX3+bX2+cX+d=0) Math 1= y2= y1= 2= Math = Math c Math c –31 –
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#070 MATH X2 – 4X + 4 = 0 Math N3(EQN)3(aX2+bX+c=0) Math 1= y4= 4= Math = –32 –
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