ユーザーズガイド SHARP EL-5250

[. . . ] 8Œ©‰3-7˚–10. 5_ •• d e S lru • • e 0. 8Œ©‰3-7˚–10. 5= 110. 4504172 16 82 ÷ Ȉ3 – 7 × -10. 5 d r • •u • r 8Œ©‰3-7˚–10. 5= 110. 4504172 8Œ©‰3-7˚–10. 5 l • @O 8Œ©‰3-7˚–10. 5= 110. 4504172 8Œ©‰3-7˚–10. 5 • •@ • ( @r • )e 110. 4504172 8Œ©‰(3-7˚–10. 5 8Œ©‰(3-7˚–10. 5 )= 7. 317272966 17 θ j 1x •j •x θ NORMAL MODE 0. 2„Ò_ 0. • • 2„ÒR 8. r S = πr 2 j@s; • NORMAL MODE 0. [. . . ] x=3 dx = 0. 001 d/dx = ? * e 3 e 0. 001 e ; 3 b0 { e e e • • j e @h 39 ∫ 2 (x2–5)dx 8 j;XA-5 { 2e8ee a=z b= n= XŒ-5 ∫dx= 0. n = 10 ∫ dx = ? 138. e e e 10 e XŒ-5 ∫dx= 138. j y x0 a bx y x2 b x a x1 x3 x0 x 1 x2 x3 40 @w0e e j @w1e e j @w2e e j @w3e e j j@w0 k 10 e 0. random˚10= 6. 31 • 41 @] . 90°→ [rad] → [g] → [°] sin–10. 8 = [°] → [rad] → [g] → [°] j 90 @ ] @] @] @ w 0. 8 e @] @] @] 1. 570796327 100. 53. 13010235 0. 927295218 59. 03344706 53. 13010235 • j 6+4=ANS ANS+5 8×2=ANS ANS2 44+37=ANS ANS= j6+4e +5e 10. 9. 8k2e Ae 44 + 37 e @*e 42 • 1 4 b 3— + — = [a—] c 2 3 →[a. xxx] →[d/c] 10 3 = 7 = (— ) 5 1 (— 8) 1 — 3 5 2 — j3k1k2+ 4k3e k @F @Y2k3e 7k5m5e 1k8m1k3e @ * 64 k 225 e (2m3)k (3m4)e 1. 2 k 2. 3 e 1[2[3k2e 1`3k2`3e j7xA 4k;Ae 1. 25 + 2 k 5 e k 4ı5ı6 * 4. 833333333 29ı6 4. 641588834 16807ı3125 1ı2 = 64 —— = 225 23 —= 34 1. 2 —– = 2. 3 1°2’3” ——– = 2 1×103 ——– = 2×103 A=7 4 —= A 2 1. 25 + — = [a. xxx] 5 b →[a—] c 5 * 4ı5ı6 = 4— 6 8ı15 8ı81 12ı23 0∂31∂1. 5∂ 1ı2 7. 4ı7 1. 65 1ı13ı20 43 @z @r @g @h @/ “ ?” “ q” “ f” “6 ” “ ?” “ q” “ f” “6” , i m A 1 l 44 DEC(25)→BIN HEX(1AC) →BIN →PEN →OCT →DEC BIN(1010–100) ×11 = BIN(111)→NEG HEX(1FF)+ OCT(512)= HEX(?) 2FEC– 2C9E=(A) +)2000– 1901=(B) (C) 1011 AND 101 = (BIN) 5A OR C3 = (HEX) NOT 10110 = (BIN) 24 XOR 4 = (OCT) B3 XNOR 2D = (HEX) →DEC j @ / 25 @ z @ a 1AC @z @r @g @/ @ z ( 1010 - 100 ) k 11 e d 111 e @ a 1FF @ g + 512 e @a j x M @ a 2FEC - 2C9Em 2000 1901 m tM j @ z 1011 4 101 e @ a 5A p C3 e @ z n 10110 e @ g 24 x 4 e @ a B3 C 2D e @/ 11001. b 110101100. b 3203. P 654. 0 428. 10010. b 1111111001. b 1511. 0 349. H 34E. H 6FF. H A4D. H 1. b DB. H 1111101001. b 20. 0 FFFFFFFF61. H –159. 45 • 12∂34∂56. 78∂ 12°39’18. 05” →[10] 123. 678→[60] 3h30m45s + 6h45m36s = [60] 1234°56’12” + 0°0’34. 567” = [60] 3h45m – 1. 69h = [60] sin62°12’24” = [10] 24°→[ ” ] 1500”→[ ’ ] j 12 [ 39 [ 18. 05 @: 123. 678 @ : 3 [ 30 [ 45 + 6 [ 45 [ 36 e 1234 [ 56 [ 12 + 0 [ 0 [ 34. 567 e 3 [ 45 - 1. 69 e @: v 62 [ 12 [ 24 e 24 [ I 6 0 [ 0 [ 1500 I 7 12. 65501389 123∂40∂40. 8∂ 10∂16∂21. 25. 46 Y y 0 x P (x, y) Y r P (r, θ) X 0 θ X • • • r • • • • r θ x y x θ x=6 r= → θ = [°] y=4 r = 14 θ = 36[°] j6, 4 @u 14 , 36 @E r= 7. 211102551 = 33. 69006753 x= 11. 32623792 y= 8. 228993532 → x= y= 47 @c 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 c, c 0 G gn me mp µ m s–1 m3 kg–1 s–2 m s–2 kg kg kg kg kg C Js J K–1 N A–2 F m–1 m m m–1 Wb J T–1 J T–1 J T–1 J T–1 J T–1 mn mµ lu e h k µ0 ε0 re α a0 µB µe µN µp µn Φ0 R∞ 48 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 m lc lc, p s NA, L Vm R F RK -e/me h/2me mm J T–1 m m W m–2 K–4 mol–1 m3 mol–1 J mol–1 K–1 C mol–1 Ohm C kg–1 m2 s–1 s –1 T–1 Hz V–1 J K m m kg mol–1 Js J s gp KJ eV t AU pc M(12C) h Eh G0 mp/me Mu a –1 lc, n c1 c2 Z0 kg mol–1 m W m2 mK W Pa V0 = 15. 3 m/s t = 10 s 1 2 gt = ?m V0 t + 2 j 15. 3 k 10 + 2 @ Z k @ c 03 k 10 Ae 643. 3325 49 E P T G M k m µ n p f a (Exa (Peta (Tera (Giga (Mega (kilo (milli (micro (nano (pico (femto (atto ) ) ) ) ) ) ) ) ) ) ) ) @j0 @j1 @j2 @j3 @j4 @j5 @j6 @j7 @j8 @j9 @jA @jB 1018 1015 1012 109 106 103 10–3 10–6 10–9 10–12 10–15 10–18 100m × 10k = 100 @ j 6 k 10 @ j 5 = 1000. 50 5÷9=ANS ANS×9= [FIX, TAB=1] j@J101 5z9e k 9 e *1 5z9e@n k 9 e *2 @P0 0. 6 5. 0 0. 6 5. 4 *1 5. 5555555555555×10–1×9 *2 0. 6×9 51 b0 I5 @h • NORMAL MODE 0. TŒ=(4π©GM)R_ • • • j e j R= 1. 127251652 R¬ 9. L¬ 9. TŒ=(4π©GM)R → e G=z du NORMAL MODE 0. → j TŒ=(4π©GM)R_ 1. 5 52 A×B = C × D b0 ; ; k; k; ;= NORMAL MODE 0. A˚B=C˚D_ • I5 • • • e A˚B=C˚D A=z 0. • • e A˚B=C˚D B=z 0. • A˚B=C˚D C=z 0. e • • • @h A˚B=C˚D D=z D= R¬ L¬ 0. 20. 50. • 53 • • e @h • A˚B=C˚D A=z 10. d e • A˚B=C˚D C=z 2. 5 4. 80. @h • C= R¬ L¬ • • • • • j - ERROR 02 CALCULATION 54 b0 @G • • • • • j e j πRŒH= 785. 3981634 πRŒH → e H=z du NORMAL MODE 5. → j πRŒH_ 0. 55 A b c S S = bc sin A ÷ 2 b0 @J00j • ; ; v; z NORMAL MODE 0. BCsinA©2_ • @G • • • e BCsinA©2 A=z 0. • BCsinA©2 B=z 0. e • BCsinA©2 C=5_ e BCsinA©2= 7. 5 56 e e e 2BCsinA©2 B=z BCsinA©2= 5. 303300859 • @h 3. • e @h d e BCsinA©2= 7. 071067812 57 f • • 0 • 1 • 2 <EQTN FILE> ƒLOAD ⁄SAVE ¤DEL f 1 SAVE:TITLE? • • ; • e j SAVE:RING_ •f • 58 f 0 2 DEL ¬º ⁄RING º ¤AREA-3 º ‹CIRCUIT TITLE:RING DELETE¬[DEL] QUIT¬[ENTER] du e • y e • • 59 60 b1 0 6 b1 0 1 2 3 4 5 6 61 n ¯ x Q sx x x x x x y y y y y x y I00 I01 I02 I03 I04 I05 I06 I07 I08 I09 I0A I0B I20 I21 y=a+bx+cx2 σx Σx Σ x2 ¯ y sy σy Σy Σy 2 Σ xy W a b c r I22 I23 • I c y’ y x x’ x y c y’ a b y x x’ x y 62 y = a + bx +cx2 r a b c @P2y _ , x, x, _ y_ y, _ • _ j 63 _ ud d X= Y= N: u N X=z › 75. [. . . ] 35∏5= 38955840. 2 @e e 1 1 114 • • • • •j • • • • • 115 • • • • @o j • 116 • zALL DATA CL?z z YES¬[DEL] z z NO¬[ENTER]z e • y y 117 @o S •j <OPTION> ƒCTRST ⁄M. CHK ¤DELETE 0 LCD CONTRAST [+] [-] DARK® ¬LIGHT •+ • - j@o0 + 1 624BYTES FREE EQTN: 15 PROG: 09 • • • 118 2 • 1 0 <<DELETE>> ƒEQTN ⁄PROG y e • j 119 01 02 SYNTAX CALCULATION 03 NESTING 04 05 LBL DUPLICATE LBL UNDEFINED 06 07 LBL OVER GOSUB STACK CAN’T RETURN MEMORY OVER 08 09 10 STORAGE FULL 11 DATA OVER BREAK! j 120 y = f(x) y x @h - ERROR 02 CALCULATION 121 • • I5 @J RANGE:a<b a= –1. b= 1. a: b: • j • • @h 122 y y y y x3 x2 x x x x y =10x – 5 y x 1 • x x y = sin x 2 y • y = x3 – 3x2 + x + 5 123 • yx n ex ln • • DEG: sin x, cos x, tan x RAD: π | x | < —– × 1010 180 π (tan x : | x | = / — (2n–1))* 2 | x | < 1010 (tan x : | x | = / 90 (2n–1))* sin–1x, cos–1x tan–1x, 3√x In x, log x 10 × 1010 GRAD: | x | < —– 9 (tan x : | x | = / 100 (2n–1))* |x|> 1 = yx | x | < 10100 100 10–99 > = x < 10 • y > 0: –10100 < x log y < 100 • y = 0: 0 < x < 10100 • y < 0: x = n 1 (0 < l x l < 1: — = 2n–1, x = / 0)*, x –10100 < x log | y | < 100 • y > 0: –10100 < — log y < 100 (x = / 0) 1 x x __ √y • y = 0: 0 < x < 10100 • y < 0: x = 2n–1 1 (0 < | x | < 1 : — = n, x = / 0)*, –10100 < — log | y | < 100 1 x x 124 ex 10x sinh x, cosh x, tanh x sinh–1 x cosh–1 x tanh–1 x x2 x3 __ √x x–1 n!nPr –10100 < x > = 230. 2585092 –10100 < x < 100 |x|> = 230. 2585092 | x | < 1050 50 1> = x < 10 |x|<1 | x | < 1050 | x | < 2. 15443469 × 1033 100 0> = x < 10 100 | x | < 10 (x ≠ 0) 0> =n> = 69* > 0> r = =n> = 9999999999* n! 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