Casio FX-9750G manuel d'utilisation

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Tout d'abord, le manuel d’utilisation Casio FX-9750G devrait contenir:
- informations sur les caractéristiques techniques du dispositif Casio FX-9750G
- nom du fabricant et année de fabrication Casio FX-9750G
- instructions d'utilisation, de réglage et d’entretien de l'équipement Casio FX-9750G
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes

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Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Casio FX-9750G ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Casio FX-9750G et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Casio en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Casio FX-9750G, comme c’est le cas pour la version papier.

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Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Casio FX-9750G, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.

Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Casio FX-9750G. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.

Table des matières du manuel d’utilisation

  • Page 1

    CASIO Worldwide Education Website http://edu.casio.com CASIO EDUCATIONAL FORUM http://edu.casio.com/forum/ fx - 9 8 6 0 GI I SD f x - 9 8 6 0 G I I f x - 9 8 6 0 G A U P L U S f x - 9 8 6 0 G S D ( U p da t ed to O S 2. 0 ) f x - 9 8 6 0 G ( U p d a ted to OS 2. 0 ) f x -9860 G A U ( U p da t ed to O S 2. 0 ) f x - 9 7 5 0 G  f x - 7 4 0 0 G [...]

  • Page 2

    i • The contents of this user’s guide are subject to change without notice. • No part of this user’s guide may be reproduced in any form without the express written consent of the manufacturer. • The options described in Chapter 13 of this user’s guide may not be available in certain geographic areas. For full details on availability in[...]

  • Page 3

    ii Cont ents Getting Acquainted — Read This First! Chapter 1 Basic Operation 1. Keys ....................................................................................................................... ....... 1-1 2. Display .................................................................................................................... ...[...]

  • Page 4

    iii Chapter 6 Statistical Graphs and Calculations 1. Before Performing Statistical Calculations .................................................................... 6-1 2. Calculating and Graphing Single-Variable Statistical Data ........................................... 6-4 3. Calculating and Graphing Paired-Variable Statistical Data ...........[...]

  • Page 5

    iv Chapter 12 System Manager 1. Using the System Manager ......................................................................................... 12-1 2. System Settings .......................................................................................................... 12-1 Chapter 13 Data Communications 1. Connecting Two Units ............[...]

  • Page 6

    v G et ting A cquainte d — Read Th is First ! I About this User’s Guide S Model-specific Function and Screen Differences This User’s Guide covers multiple different calculator models. Note that some of the functions described here may not be available on all of the models covered by this User’s Guide. All of the screen shots in this User’[...]

  • Page 7

    vi the mode the calculator is in, and current operation assignments are indicated by function menus that appear at the bottom of the display. • This User’s Guide shows the current operation assigned to a function key in parentheses following the key cap for that key.  (Comp), for example, indicates that pressing  selects {Comp}, which is [...]

  • Page 8

    1-1 Chapter 1 Basic O peration 1. Keys I Key Table Not all of the functions described above are available on all models covered by this manual. Depending on calculator model, some of the above keys may not be included on your calculator. Page Page Page Page Page Page Page Page Page Page Page 2-1 5-29 5-5 5-3 2-14 1-18, 2-14 1-2 2-7 2-14 2-14 5-28 5[...]

  • Page 9

    1-2 I Key Markings Many of the calculator’s keys are used to perform more than one function. The functions marked on the keyboard are color coded to help you find the one you need quickly and easily. Function Key Operation  log J  10 x J  B ?J The following describes the color coding used for key markings. Color Key Operation Yellow P[...]

  • Page 10

    1-3 3. Press U to display the initial screen of the mode whose icon you selected. Here we will enter the STAT mode. • You can also enter a mode without highlighting an icon in the Main Menu by inputting the number or letter marked in the lower right corner of the icon. • Use only the procedures described above to enter a mode. If you use any ot[...]

  • Page 11

    1-4 Icon Mode Name Description TVM* 1 (Financial) Use this mode to perform financial calculations and to draw cash flow and other types of graphs. E-CON2* 1 Use this mode to control the optionally available EA-200 Data Analyzer. For more information about the E-CON2 mode, download the E-CON2 manual (English version only) from: http://edu.casio. com[...]

  • Page 12

    1-5 1.2 E –03 indicates that the result is equivalent to 1.2 s 10 –3 . This means that you should move the decimal point in 1.2 three places to the left, because the exponent is negative. This results in the value 0.0012. You can specify one of two different ranges for automatic changeover to normal display. Norm 1 ................... 10 –2 ([...]

  • Page 13

    1-6 I Editing Calculations Use the B and C keys to move the cursor to the position you want to change, and then perform one of the operations described below. After you edit the calculation, you can execute it by pressing U . Or you can use C to move to the end of the calculation and input more. • You can select either insert or overwrite for inp[...]

  • Page 14

    1-7 I Using Replay Memory The last calculation performed is always stored into replay memory. You can recall the contents of the replay memory by pressing B or C . If you press C , the calculation appears with the cursor at the beginning. Pressing B causes the calculation to appear with the cursor at the end. You can make changes in the calculation[...]

  • Page 15

    1-8 U Press ) . Cursor is positioned automatically at the location of the cause of the error. Make necessary changes. B @ Execute again. U I Using the Clipboard for Copy and Paste You can copy (or cut) a function, command, or other input to the clipboard, and then paste the clipboard contents at another location. • The procedures described here a[...]

  • Page 16

    1-9 2. Use the cursor keys to move the cursor and highlight the range of text you want to cut. 3. Press 2 (CUT) to cut the highlighted text to the clipboard. Cutting causes the original characters to be deleted. u Pasting Text Move the cursor to the location where you want to paste the text, and then press ! j (PASTE). The contents of the clipboard[...]

  • Page 17

    1-10 Example To use the Catalog to input the ClrGraph command A! e (CATALOG) I (C) c ~ c w Pressing J or !J (QUIT) closes the Catalog. 4. Using the Math Input/Output Mode Important! • The fx-7400G II and fx-9750G II are not equipped with a Math input/output mode. Selecting “Math” for the “Input/Output” mode setting on the Setup screen (pa[...]

  • Page 18

    1-11 k Input Operations in the Math Input/Output Mode u Math Input/Output Mode Functions and Symbols The functions and symbols listed below can be used for natural input in the Math input/output mode. The “Bytes” column shows the number of bytes of memory that are used up by input in the Math input/output mode. Function/Symbol Key Operation Byt[...]

  • Page 19

    1-12 S Using the MATH Menu In the RUN • MAT mode, pressing  (MATH) displays the MATH menu. You can use this menu for natural input of matrices, differentials, integrals, etc. •{ MAT } ... {displays the MAT submenu, for natural input of matrices} •{ 2 s 2 } ... {inputs a 2 × 2 matrix} •{ 3 s 3 } ... {inputs a 3 × 3 matrix} •{ m s n } [...]

  • Page 20

    1-13 D C  V U Example 3 To input 1+ x +1 dx 0 1 @  (MATH)  ( E )  ( ° dx ) T @ C ? D @ C U Example 4 To input 2 × 1 2 2 1 2 2 A  (MATH)  (MAT)  (2×2) 6 @ A A CC V (  ) A C[...]

  • Page 21

    1-14 C V (  ) A CC 6 @ A A U S When the calculation does not fit within the display window Arrows appear at the left, right, top, or bottom edge of the display to let you know when there is more of the calculation off the screen in the corresponding direction. When you see an arrow, you can use the cursor keys to scroll the screen contents an[...]

  • Page 22

    1-15 This capability can be used with the following functions. Function Key Operation Original Expression Expression After Insertion Improper Fraction 6 Power ,  V (  ) Cube Root   ( 3  ) Power Root  , ( x  ) e x ( ( e x ) 10 x J (10 x ) log(a,b)  (MATH)  (log a b) Absolute Value  (MATH)  (Abs) Linear Diffe[...]

  • Page 23

    1-16 I Using Undoing and Redoing Operations You can use the following procedures during calculation expression input in the Math input/ output mode (up until you press the U key) to undo the last key operation and to redo the key operation you have just undone. - To undo the last key operation, press: ?# (UNDO). - To redo a key operation you have j[...]

  • Page 24

    1-17 • Matrices are displayed in natural format, up to 6 × 6. A matrix that has more than six rows or columns will be displayed on a MatAns screen, which is the same screen used in the Linear input/output mode. • Lists are displayed in natural format for up to 20 elements. A list that has more than 20 elements will be displayed on a ListAns sc[...]

  • Page 25

    1-18 • The value stored in the answer memory is always dependent on the result produced by the last calculation performed. If history contents include operations that use the answer memory, editing a calculation may affect the answer memory value used in subsequent calculations. - If you have a series of calculations that use the answer memory to[...]

  • Page 26

    1-19 20 73 5 2 + 3 = 4 1 10 23 + 2 3 1.5 + 2.3 i = i 2 6 5 C  3  6 (  ) 1 C 4 U 1.5  2.3  ? ( i ) U , dx d ( ) x 3 +4 x 2 + x − 6 x = 3 = 52  (MATH)  ( d / dx ) T , 3 C  4 TV  T  6 C 3 U 2 x 2 + 3 x + 4 dx = 3 404  5 1  (MATH)  ( E )  ( ° dx ) 2 T V  3 T  4 C 1 C 5 U ( k 2 − 3 k + 5 ) = 55 ∑ k [...]

  • Page 27

    1-20 The following operation is a continuation of the example calculation on the previous page. @ C @ 6 A CC BB C @B 6 C CC D C E C G U S To assign a matrix created using Math input/output mode to a MAT mode matrix Example To assign the calculation result to Mat J  A (Mat)  (Ans) ?  A (Mat) ?  (J) U • Pressing the # key while th[...]

  • Page 28

    1-21 Important! • On a model whose operating system has been updated to OS 2.0 from an older OS version, Math input/output mode input and result display are not supported in any mode except the RUN • MAT mode and e • ACT mode. u Math Input/Output Mode Input in the GRAPH Mode You can use the Math input/output mode for graph expression input in[...]

  • Page 29

    1-22 Example To solve the quadratic equation x 2 + 3 x + 5 = 0 in the EQUA mode K EQUA K (SET UP) AAAA (Complex Mode)  (a+b i ) )  (POLY)  (2) @ U B U D UU 5. Option (OPTN) Menu The option menu gives you access to scientific functions and features that are not marked on the calculator’s keyboard. The contents of the option menu differ[...]

  • Page 30

    1-23 6. Variable Data (VARS) Menu To recall variable data, press ) to display the variable data menu. { V-WIN } / { FACT } / { STAT } / { GRPH } / { DYNA } / { TABL } / { RECR } / { EQUA } / { TVM } / { Str } • Note that the EQUA and TVM items appear for function keys (  and  ) only when you access the variable data menu from the RUN • MA[...]

  • Page 31

    1-24 • { INPT } * ... {statistical calculation input values} • { n } / { ¯ x } / {s x } / { n 1 } / { n 2 } / { ¯ x 1 } / { ¯ x 2 } / { s x 1 } / { s x 2 } / { s p } ... {size of sample}/{mean of sample}/{sample standard deviation}/{size of sample 1}/{size of sample 2}/{mean of sample 1}/{mean of sample 2}/{standard deviation of sample 1}/{s[...]

  • Page 32

    1-25 S RECR* — Recalling recursion formula* 1 , table range, and table content data •{ FORM } ... {recursion formula data menu} • { a n } / { a n +1 } / { a n +2 } / { b n } / { b n +1 } / { b n +2 } / { c n } / { c n +1 } / { c n +2 } ... { a n }/{ a n +1 }/{ a n +2 }/{ b n }/{ b n +1 }/{ b n +2 }/{ c n }/ { c n +1 }/{ c n +2 } expressions ?[...]

  • Page 33

    1-26 •{ DISP } ...... {display command menu} •{ REL } ....... {conditional jump relational operator menu} •{ I/O } ......... {I/O control/transfer command menu} •{ : } ............. {multi-statement command} •{ STR } ....... {string command} The following function key menu appears if you press  ) (PRGM) in the RUN • MAT (or RUN ) mod[...]

  • Page 34

    1-27 S Mode (calculation/binary, octal, decimal, hexadecimal mode) •{ Comp } ... {arithmetic calculation mode} •{ Dec } / { Hex } / { Bin } / { Oct } ... {decimal}/{hexadecimal}/{binary}/{octal} S Frac Result (fraction result display format) •{ d/c } / { ab/c } ... {improper}/{mixed} fraction S Func Type (graph function type) Pressing one of [...]

  • Page 35

    1-28 S List File (list file display settings) •{ FILE } ... {settings of list file on the display} S Sub Name (list naming) •{ On } / { Off } ... {display on}/{display off} S Graph Func (function display during graph drawing and trace) •{ On } / { Off } ... {display on}/{display off} S Dual Screen (dual screen mode status) •{ G+G } / { GtoT[...]

  • Page 36

    1-29 u Periods/YR. * (payment interval specification) • { Annu } / { Semi } ... {annual}/{semiannual} u Ineq Type (inequality fill specification) • { AND } / { OR } ... When graphing multiple inequalities, {fill areas where all inequality conditions are satisfied}/{fill areas where each inequality condition is satisfied} u Simplify (calculation[...]

  • Page 37

    1-30 2. Press  F (CAPTURE). • This displays a memory area selection dialog box. 3. Input a value from 1 to 20 and then press U . • This will capture the screen image and save it in capture memory area named “Capt n ” ( n = the value you input). • You cannot capture the screen image of a message indicating that an operation or data comm[...]

  • Page 38

    1-31 k Restart and Reset u Restart Should the calculator start to act abnormally, you can restart it by pressing the RESTART button (P button). Note, however, that you should only use the RESTART button only as a last resort. Normally, pressing the RESTART button reboots the calculator’s operating system, so programs, graph functions and other da[...]

  • Page 39

    2-1 Chapter 2 Ma nual Calculations 1. Basic Calculations I Arithmetic Calculations • Enter arithmetic calculations as they are written, from left to r ight. • Use the  ke y to input the minus sign bef ore a negative v alue. • Calculations are perf or med internally with a 15-digit mantissa. The result is rounded to a 10- digit mantissa bef[...]

  • Page 40

    2-2 Example 2 200 w 7 s 14 = 400 Condition Operation Display 200  7  14 U 400 3 decimal places K (SET UP) DD  (Fix) B U)U 400.000 Calculation continues using displa y capacity of 10 digits 200  7 U  14 U 28.571 Ans s I 400.000 • If the same calculation is perf or med using the specified number of digits: 200  7 U 28.571 The v[...]

  • Page 41

    2-3 tanh –1 , (–), d, h, b , o , Neg, Not, Det, T rn, Dim, Identity , Ref , Rref, Sum, Prod, Cuml, P ercent, List, Abs, Int, F rac, Intg, Arg, Conjg, ReP , ImP  Abbre viated multiplication f or mat in front of T ype A functions , T ype C functions, and parenthesis. 2  3, A log2, etc.  P er m utation, combination n P r , n C r  Metri[...]

  • Page 42

    2-4 S Calculation Result Displa y Range with  Displa y of a calculation result in  format is suppor ted for result with  in up to tw o ter ms . Calculation results in  f or mat take one of the f ollowing f or ms. p a  b , p d p a  b , p a ' b c p d ' e f • The f ollowing are the ranges f or each of the coefficients ( a[...]

  • Page 43

    2-5 S Calculation Result Displa y Range with P A calculation results is displa yed using P f or mat in the f ollowing cases . • When the calculation result can be displa yed in the f or m n P n is an integer up to |10 6 |. • When the calculation result can be displa yed in the f or m a b c P or b c P How e ver , {number of a digits + number of [...]

  • Page 44

    2-6 I Overflow and Err ors Exceeding a specified input or calculation range , or attempting an illegal input causes an error message to appear on the displa y . Fur ther operation of the calculator is impossible while an error message is displa yed. For details , see the “Error Message T able” on page A -1. • Most of the calculator’ s ke ys[...]

  • Page 45

    2-7 Example 2 T o add 456 to v ariable A and store the result in variab le B ?T (A) CDE ? ?J (B) U S T o assign the same value to more than one v ariable [v alue] ? [first v ar iab le name] ? (~) [last v ariable name] U • Y ou cannot use “ r ”o r “ Q ” as a v ariable name. Example T o assign a v alue of 10 to variab les A through[...]

  • Page 46

    2-8 S T o store a function Example T o store the function (A+B) (A–B) as function memory number 1  ?T (A)  ?J (B)   ?T (A)  ?J (B)  *  ( E )  ( E )  (FMEM)*  (ST O) @ U * fx-7400G II :  (FMEM) ))) • If the function memor y number to which you store a function already contains a function, the pre vious function i[...]

  • Page 47

    2-9 u T o delete a function Example T o delete the contents of function memory number 1 A K 6 ( g ) 6 ( g ) 3 (FMEM) * 1 (STO) b w * fx-7400G II : 2 (FMEM) • Executing the store operation while the display is blank deletes the function in the function memory you specify. k Ans wer Function The Answer Function automatically stores the last result [...]

  • Page 48

    2-10 I P erforming Contin uous Calculations Ans wer memor y also lets you use the result of one calculation as one of the arguments in the ne xt calculation. Example 1 w 3 = 1 w 3 s 3 = @B U (Continuing) B U Continuous calculations can also be used with T ype B functions ( x 2 , x –1 , x! , on page 2-2), +, –, ^( x y ), x  , ° ’ ”[...]

  • Page 49

    2-11 S T o specify the number of significant digits (Sci) Example T o specify three significant digits  (Sci) B U Press the number k ey that corresponds to the n umber of significant digits you want to specify ( n = 0 to 9). Specifying 0 makes the n umber of significant digits 10. • Displa yed v alues are rounded off to the number of significa[...]

  • Page 50

    2-12 S Hyperbolic Calculations (HYP) [OPTN] - [HYP] • { sinh } / { cosh } / { tanh } ... hyperbolic {sine}/{cosine}/{tangent} • { sinh –1 } / { cosh –1 } / { tanh –1 } ... inv erse hyperbolic {sine}/{cosine}/{tangent} S Pr obability/Distrib ution Calculations (PR OB) [OPTN] - [PR OB] • { x! } ... {press after inputting a value to obtain[...]

  • Page 51

    2-13 S Engineering Symbol (ESYM) [OPTN] - [ESYM] • { m } / { μ } / { n } / { p } / { f } ... {milli (10 –3 )}/{micro (10 –6 )}/{nano (10 –9 )}/{pico (10 –12 )}/{femto (10 –15 )} • { k } / { M } / { G } / { T } / { P } / { E } ... {kilo (10 3 )}/{mega (10 6 )}/{giga (10 9 )}/{tera (10 12 )}/{peta (10 15 )}/ {e xa (10 18 )} • { ENG }[...]

  • Page 52

    2-14 I Logarithmic and Exponential Functions • Be sure to specify Comp f or Mode in the Setup screen. Example Operation log 1.23 (log 10 1.23) = 0.08990511144 J 1.23 U log 2 8=3 *  (CALC)*  ( E )  (log a b) 2  8  U (–3) 4 = (–3) s (–3) s (–3) s (–3) = 81   3  , 4 U 7 123 (= 123 1 7 ) = 1.988647795 7  , ( x [...]

  • Page 53

    2-15 I Random Number Generation (RAND) S Random Number Generation (0 to 1) (Ran#, RanList#) Ran# and RanList# generate 10 digit random n umbers randomly or sequentially from 0 to 1. Ran# retur ns a single r andom number , while RanList# retur ns multiple random n umbers in list f or m. The follo wing shows the syntax es of Ran# and RanList#. Ran# [[...]

  • Page 54

    2-16 RanList# Examples Example Operation RanList# (4) (Generates f our random numbers and displa ys the result on the ListAns screen.) *  ( E )  (PROB)*  (RAND)  (List) 4  U RanList# (3, 1) (Generates from the first to the third random numbers of sequence 1 and displa ys the result on the ListAns screen.) ) *  ( E )  (PROB)* ?[...]

  • Page 55

    2-17 Example Operation RanNor m# (8, 68) (Randomly produces a body length v alue obtained in accordance with the nor mal distribution of a group of inf ants less than one year old with a mean body length of 68cm and standard de viation of 8.) *  ( E )  (PROB)*  (RAND)  (Norm) 8  68  U RanNor m# (8, 68, 5) (Randomly produces the bo[...]

  • Page 56

    2-18 Example Operation Calculate r and Ƨ ° when x =1 4a n d y = 20.7 K (SET UP) AAAAAA *  (Deg) ) *  ( E )  (ANGL)**  ( E )  (P ol() 14  20.7  U) Calculate x and y when r =2 5a n d Ƨ = 56°  (Rec() 25  56  U * fx-7400G II , fx-9750G II : AAAAA ** fx-7400G II :  (ANGL) I P ermutation and Combination S P ermutat[...]

  • Page 57

    2-19 I Division Remainder (MOD), Remainder of Exponential Division (MOD Exp) Example Operation T o determine the remainder when 137 is divided by 7 (MOD (137, 7) = 4) *  ( E )  (NUM)*  ( E )  (MOD) 137  7  U T o determine the remainder when 5 3 is divided by 3 (MOD • E (5, 3, 3) = 2) *  ( E )  (NUM)*  ( E )  (MOD •[...]

  • Page 58

    2-20 = 0.0009k (kilo) = 0.9 = 900m  (ENG)* 1  (ENG)* 2  (ENG)* 2 * fx-7400G II :  (ESYM) * 1 Conv er ts the displa y ed v alue to the ne xt higher engineer ing unit, b y shifting the decimal point three places to the right. * 2 Conv er ts the displa y ed v alue to the ne xt lower engineering unit, by shifting the decimal point three pla[...]

  • Page 59

    2-21 5. Numerical Calculations The f ollowing e xplains the numerical calculation operations included in the function menu displa yed when *  (CALC) (  (CALC) on the fx-7400G II ) is pressed. The follo wing calculations can be perf or med. • { Int÷ } / { Rmdr } / { Simp } ... {quotient}/{remainder}/{simplification} • { Solve } / { d / dx[...]

  • Page 60

    2-22 Under initial def ault settings, this calculator automatically simplifies fraction calculation results bef ore displaying them. Bef ore perf or ming the f ollowing e xamples, use the Setup screen to change the “Simplify” setting from “Auto” to “Manual” (page 1-29). • When “a+b i ”o r “ r  Q ” is specified f or the Setu[...]

  • Page 61

    2-23 V ar iab le table input is used with the Solv e function in the EQU A mode. This input method is recommended f or most nor mal Solve function input. An error (Time Out) occurs when there is no conv ergence of the solution. F or information about Solve calculations , see page 4-4. • Y ou cannot use a quadratic diff erential, 3 , maximum/minim[...]

  • Page 62

    2-24 I Differential Calculations [OPTN] - [CALC] - [ d / dx ] T o perf or m diff erential calculations, first displa y the function analysis menu, and then input the v alues using the syntax below . *  (CALC)*  ( d / dx ) f ( x )  a  tol  * fx-7400G II :  (CALC) ( a : point f or which you w ant to determine the der iv ative, tol :[...]

  • Page 63

    2-25 • Inaccurate results and errors can be caused b y the follo wing: - discontinuous points in x values - extreme changes in x v alues - inclusion of the local maximum point and local minimum point in x v alues - inclusion of the inflection point in x values - inclusion of undifferentiab le points in x values - diff erential calculation results[...]

  • Page 64

    2-26 • Input of the tolerance ( tol ) v alue and the closing parenthesis can be omitted. • Specify a tolerance ( tol ) v alue of 1 E –14 or greater . An error (Time Out) occurs whenev er no solution that satisfies the tolerance v alue can be obtained. • The rules that apply for linear diff erential also apply when using a quadratic diff ere[...]

  • Page 65

    2-27 Example T o perf orm the integration calculation for the function shown below , with a tolerance of “ tol ”= 1 E –4 Input the function f ( x ). *  (CALC)*  ( ° dx ) A TV B T C * fx-7400G II :  (CALC) Input the star t point and end point. @D Input the tolerance v alue. @ $ C U Note the f ollowing points to e[...]

  • Page 66

    2-28 Integration Calculation Precautions • In the function f ( x ), only X can be used as a v ariable in e xpressions. Other variables (A through Z e xcluding X, r , Ƨ ) are treated as constants, and the value currently assigned to that v ariable is applied during the calculation. • Input of “ tol ” and closing parenthesis can be omitted. [...]

  • Page 67

    2-29 I Maxim um/Minim um V alue Calculations [OPTN] - [CALC] - [FMin]/[FMax] After displa ying the function analysis menu, you can input maximum/minim um calculations using the f or mats below , and solve f or the maximum and minimum of a function within interval a  x  b . S Minim um V alue *  (CALC)*  ( E )  (FMin) f ( x )  a [...]

  • Page 68

    2-30 6. Comple x Number Calculations Y ou can perf or m addition, subtr action, multiplication, division, parentheses calculations , function calculations, and memory calculations with complex n umbers just as y ou do with the manual calculations described on pages 2-1 to 2-14. Y ou can select the comple x number calculation mode b y changing the C[...]

  • Page 69

    2-31 I Arithmetic Operations [OPTN] - [CPLX] - [ i ] Arithmetic operations are the same as those you use f or manual calculations. Y ou can e ven use parentheses and memor y . Example (1 + 2 i )+( 2+3 i ) *  (CPLX)* @A  ( i )  AB  ( i )  U * fx-7400G II :  (CPLX) I Recipr ocals, Square Roots, and Squares Example (3 [...]

  • Page 70

    2-32 *  (CPLX)*  (Abs) BC  ( i )  U (Calculation of absolute v alue) * fx-7400G II :  (CPLX) *  (CPLX)*  (Arg) BC  ( i )  U (Calculation of argument) * fx-7400G II :  (CPLX) • The result of the argument calculation diff ers in accordance with the current angle unit setting (degrees , radians , grads). I C[...]

  • Page 71

    2-33 Example T o transf orm the rectangular form of complex number 1 +  3 i to its polar form K (SET UP) AAAAAA *  (Deg) A  ( a + b i ) ) @ V (  ) B *  (CPLX)**  ( i )  ( E )  (  r  Q ) U * fx-7400G II , fx-9750G II : AAAAA ** fx-7400G II :  (CPLX) A T (  ) E? *  (CPLX)*  ( E )  (  a[...]

  • Page 72

    2-34 Number System Binar y Octal Decimal He xadecimal Display Capacity 16 digits 11 digits 10 digits 8 digits • The alphabetic characters used in the he xadecimal number appear diff erently on the display to distinguish them from te xt characters. Normal T ext AB C DEF Hexadecimal V alues ST U V W X Keys TJ ( Q A R • The f ollowing are the calc[...]

  • Page 73

    2-35 S T o input values of mixed number systems Example T o input 123 10 , when the default number system is he xadecimal K (SET UP) Mov e the highlighting to “Mode”, and then press  (He x) ) .  (d~o)  (d) @AB U I Negative V alues and Bitwise Operations Press  (LOG) to displa y a menu of negation and bitwise operators. •{ Neg }[...]

  • Page 74

    2-36 S T o con ver t a displa yed value from one number system to another Example T o con ver t 22 10 (default n umber system) to its binary or octal value K (SET UP) Mov e the highlighting to “Mode”, and then press  (Dec) ) .  (d~o)  (d) AA U ) (DISP)  (  Bin) U  (  Oct) U 8. Matrix Calculations Impor tant! • Matri[...]

  • Page 75

    2-37 I Inputting and Editing Matrices Pressing  (  MA T) displa ys the Matr ix Editor screen. Use the Matrix Editor to input and edit matrices. m s n … m (row) s n (column) matrix None… no matrix preset •{ DEL } / { DEL • A } ... deletes {a specific matrix}/{all matr ices} •{ DIM } ... {specifies the matrix dimensions (number of cel[...]

  • Page 76

    2-38 The f ollowing operation is a continuation of the e xample calculation on the pre vious page. @ U A U B U C U D U E U (Data is input into the highlighted cell. Each time you press U , the highlighting mo ves to the ne xt cell to the right.) • Displa yed cell v alues show positiv e integers up to six digits, and negativ e integers up to five [...]

  • Page 77

    2-39 S Row Calculations The f ollowing menu appears whene ver y ou press  (R-OP) while a recalled matr ix is on the displa y . •{ Swap } ... {row s wap} •{ s Rw } ... {product of specified row and scalar} •{ s Rw+ } ... {addition of one row and the product of a specified ro w with a scalar} •{ Rw+ } ... {addition of specified row to anot[...]

  • Page 78

    2-40 S T o add two ro ws tog ether Example T o add r ow 2 to ro w 3  (R-OP)  (Rw+) Specify number of ro w to be added. A U Specify number of ro w to be added to . B UU S Row Operations •{ DEL } ... {delete row} •{ INS } ... {inser t row} •{ ADD } ... {add row} S T o delete a ro w Example T o delete r ow 2  (RO W) A  (DEL) S T o in[...]

  • Page 79

    2-41 S Column Operations •{ DEL } ... {delete column} •{ INS } ... {inser t column} •{ ADD } ... {add column} S T o delete a column Example T o delete column 2  (COL) C  (DEL) I Modifying Matrices Using Matrix Commands [OPTN] - [MA T] S T o displa y the matrix commands 1. F rom the Main Menu, enter the R UN • MA T mode. 2. Press * to [...]

  • Page 80

    2-42 Example T o input the f ollowing data as Matrix A:   ( [ )   ( [ ) @BD   ( ] )   ( [ ) ACE   ( ] )   ( ] ) ? *  (MA T)  (Mat) ?T (A) U Matr ix name • The maximum v alue of both m and n is 999. • An error occurs if memor y becomes full as y ou are inputting data. • Y ou can also use th[...]

  • Page 81

    2-43 S T o assign values to and recall values from an existing matrix [OPTN] - [MA T] - [Mat] Use the f ollowing f ormat with the Mat command to specify a cell for v alue assignment and recall. Mat X [ m , n ] X = matr ix name (A through Z, or Ans) m = row number n = column number Example 1 T o assign 10 to the cell at r ow 1, column 2 of the f oll[...]

  • Page 82

    2-44 • Y ou can use Matr ix Ans wer Memor y to assign the results of the abo ve matrix input and edit operations to a matrix variab le. T o do so , use the f ollowing syntax. Fill ( n , Mat A ) A ugment (Mat A , Mat B ) m Mat G In the abov e, A , B , and G are any v ar iab le names A through Z, and n is any v alue. The abov e does not affect the [...]

  • Page 83

    2-45 S Matrix Arithmetic Operations [OPTN] - [MA T] - [Mat]/[Iden] Example 1 T o add the f ollowing two matrices (Matri x A + Matrix B): *  (MA T)  (Mat) ?T (A)   (Mat) ?J (B) U Example 2 T o m ultiply the tw o matrices in Example 1 (Matrix A s Matrix B) *  (MA T)  (Mat) ?T (A)   (Mat) ?J (B) U • The two matrices must ha v[...]

  • Page 84

    2-46 *  (MA T)  (T rn)  (Mat) ?T (A) U S Row Echelon Form [OPTN] - [MA T] - [Ref] This command uses the Gaussian elimination algorithm to find the row echelon f or m of a matrix. Example T o find the r ow ec helon form of the following matrix: Matrix A = *  (MA T)  ( E )  (Ref)  ( E )  (Mat) ?T (A) U S Reduced Row Echelon Fo[...]

  • Page 85

    2-47 • Only square matrices (same number of rows and columns) can be in ver ted. T r ying to in v er t a matrix that is not square produces an error . • A matrix with a deter minant of zero cannot be in ver ted. T r ying to in ver t a matrix with deter minant of z ero produces an error . • Calculation precision is aff ected for matrices whose[...]

  • Page 86

    2-48 S Complex Number Calculations with a Matrix Example T o determine the absolute v alue of a matrix with the follo wing complex number elements: Matrix D = *  ( E )  (NUM)  (Abs) *  (MA T)  (Mat) ?Q (D) U • The f ollowing comple x number functions are suppor ted in matrices. i , Abs, Arg, Conjg, ReP , ImP ,  a+b i ,  r [...]

  • Page 87

    2-49 Y ou can conv er t from any unit in a categor y to an y other unit in the same categor y . • Attempting to conv er t from a unit in one categor y (such as “AREA”) to a unit in another categor y (such as “TIME”) results in a Conv ersion ERROR. • See the “Unit Conv ersion Command List” (page 2-50) f or inf or mation about the uni[...]

  • Page 88

    2-50 I Unit Con version Command List Cat. Display Name Unit Cat. Displa y Name Unit Length fm f er mi V olume cm 3 cubic centimeter Å angstrom mL milliliter M m micrometer L liter mm millimeter m 3 cubic meter cm centimeter in 3 cubic inch m meter ft 3 cubic f oot km kilometer fl_oz(UK) ounce A U astronomical unit fl_oz(US) fluid ounce (U .S.) l.y[...]

  • Page 89

    2-51 Cat. Display Name Unit Cat. Displa y Name Unit T emperature °C degrees Celsius Pressure P a P ascal K K elvin kP a Kilo Pascal °F degrees F ahrenheit mmH 2 O millimeter of water °R degrees Rankine mmHg millimeter of Mercur y V elocity m/s meter per second atm atmosphere km/h kilometer per hour inH 2 O inch of water knot knot inHg inch of Me[...]

  • Page 90

    3-1 Chapter 3 Lis t Func t io n A list is a storage place f or multiple data items. This calculator lets you store up to 26 lists in a single file , and you can store up to six files in memor y . Stored lists can be used in ar ithmetic and statistical calculations, and f or graphing. Element number Displa y range Cell Column List name Sub name Row [...]

  • Page 91

    3-2 S T o batch input a series of values 1. Use the cursor k eys to mov e the highlighting to another list. 2. Press   ( { ), and then input the v alues y ou want, pressing  between each one . Press   ( } ) after inputting the final v alue.   ( { ) EFG   ( } ) 3. Press U to store all of the v alues in y our list. U [...]

  • Page 92

    3-3 S T o delete a cell 1. Use the cursor k eys to mov e the highlighting to the cell you w ant to delete. 2. Press  ( E )  (DEL) to delete the selected cell and cause e ver ything belo w it to be shifted up . • The cell delete operation does not aff ect cells in other lists. If the data in the list whose cell you delete is someho w related[...]

  • Page 93

    3-4 3. T ype in the name and then press U . • T o type in a name using alpha characters , press ? to enter the ALPHA-LOCK mode. Example: YEAR  (Y) A (E) T (A) E (R) U • The f ollowing operation displa ys a sub name in the RUN • MA T (or RU N ) mode.  @ (List) n   ( [ ) ?   ( ] ) U ( n = list number from 1 to 26) • Thoug[...]

  • Page 94

    3-5 Ascending order 1. While the lists are on the screen, press  ( E )  (T OOL)  (SR T • A). 2. The prompt “How Many Lists?:” appears to ask how many lists y ou want to sor t. Here we will sor t one base list linked to one other list, so w e should input 2. A U 3. In response to the “Select Base List List No:” prompt, input the n[...]

  • Page 95

    3-6 Example T o transfer the contents of List 1 (2, 3, 6, 5, 4) to column 1, and the contents of List 2 (11, 12, 13, 14, 15) to column 2 of Matrix Answer Memory *  (LIST)  (L m M)  (List) @  (List) A U S T o count the number of data items in a list [OPTN] - [LIST] - [Dim] *  (LIST)  (Dim)  (List) <list number 1 - 26>[...]

  • Page 96

    3-7 S T o g enerate a sequence of number s [OPTN] - [LIST] - [Seq] *  (LIST)  (Seq) <e xpression>  <variable name>  <star t v alue>  <end value>  <increment>  U • The result of this operation is stored in ListAns Memory . Example T o input the number sequence 1 2 , 6 2 , 1 1 2 , into a list, usin[...]

  • Page 97

    3-8 S T o calculate the median of data items of specified frequency [OPTN] - [LIST] - [Med] This procedure uses two lists: one that contains values and one that indicates the frequency (number of occurrences) of each v alue. The frequency of the data in Cell 1 of the first list is indicated by the v alue in Cell 1 of the second list, etc. • The t[...]

  • Page 98

    3-9 S T o calculate the cumulative frequency of eac h data item [OPTN] - [LIST] - [Cuml] *  (LIST)  ( E )  ( E )  (Cuml)  ( E )  (List) <list number 1 - 26> U • The result of this operation is stored in ListAns Memory . Example T o calculate the cum ulative frequency of each data item in List 1 (2, 3, 6, 5, 4) *  (LIST)[...]

  • Page 99

    3-10 • Y ou can specify the storage location in list memor y f or a calculation result produced by a list calculation whose result is stored in ListAns memor y . For e xample, specifying “ List 1 m List 2” will store the result of List 1 in List 2. • The number of cells in the ne w List is one less than the number of cells in the or iginal [...]

  • Page 100

    3-11 S T o directly input a list of values Y ou can also directly input a list of values using {, }, and  . Example T o input the list: 56, 82, 64   ( { ) DEGA EC   ( } ) S T o assign the contents of one list to another list Use ? to assign the contents of one list to another list. Example T o assign the contents of List 3 (41,[...]

  • Page 101

    3-12 S T o use list contents in ListAns Memor y in a calculation Example T o m ultiply the list contents in ListAns Memory b y 36 *  (LIST)  (List)  (Ans) BE U • The operation *  (LIST)  (List)  (Ans) recalls ListAns Memory contents. • This operation replaces current ListAns Memory contents with the result of the abov[...]

  • Page 102

    3-13 I P erforming Scientific Function Calculations Using a List Lists can be used just as numeric values are in scientific function calculations . When the calculation produces a list as a result, the list is stored in ListAns Memor y . Example T o use List 3 41 65 22 to perform sin (List 3) Use radians as the angle unit. Q *  (LIST)  (List)[...]

  • Page 103

    4-1 Chapter 4 Equation Calculations F rom the Main Menu, enter the EQU A mode. •{ SIML } ... {linear equation with 2 to 6 unknowns} •{ POL Y } ... {degree 2 to 6 equation} •{ SOL V } ... {solve calculation} 1. Simultaneous Linear Equations You can solve simultaneous linear equations with two to six unknowns. • Simultaneous Linear Equation w[...]

  • Page 104

    4-2  K EQUA   (SIML)  (3) C U @ U A U @ U @ U E U B U @ U  D U C U @ U F U   (SOLV) • Internal calculations are performed using a 15-digit mantissa, but results are displayed using a 10-digit mantissa and a 2-digit exponent. • Simultaneous linear equations are solved by inverting the matrix containing the coeffi[...]

  • Page 105

    4-3 • To change the value of a coefficient that you already stored by pressing U , move the cursor to the coefficient you want to edit. Next, input the value you want to change to. • Pressing  (CLR) clears all coefficients to zero. 4. Solve the equations. Example To solve the cubic equation (Angle unit = Rad) x 3 – 2 x 2 – x + 2 = 0  [...]

  • Page 106

    4-4 3. Solve Calculations The Solve Calculation mode lets you determine the value of any variable in a formula without having to solve the equation. 1. From the Main Menu, enter the EQUA mode. 2. Select the SOLV (Solver) mode, and input the equation as it is written. • If you do not input an equals sign, the calculator assumes that the expression[...]

  • Page 107

    5-1 Chapter 5 Graphing Select the icon in the Main Menu that suits the type of graph you want to draw or the type of table you want to generate. • GRAPH … General function graphing • RUN • MAT (or RUN ) … Manual graphing (pages 5-12 to 5-15) • TABLE … Number table generation (pages 5-15 to 5-19) • DYNA* … Dynamic graphing (pages 5[...]

  • Page 108

    5-2  (CONV)  (  Y=) to  (  Y b )  ( E )  (  X=) to  (  X b ) ... changes the function type  ( E )  (Y>) to  (Y b ) .... Y inequality on left side  ( E )  ( E )  (X>) to  (X b ) .... X inequality on left side Repeat this step as many times as required to input all of the functions you want. Ne[...]

  • Page 109

    5-3 S T o make V -Window settings 1. From the Main Menu, enter the GRAPH mode. 2. Press  (V-WIN) to display the V-Window setting screen. Rectangular coordinate parameter Xmin/Xmax … Minimum/maximum x -axis value Xscale … Spacing of x -axis increments Xdot … Value that corresponds to one x -axis dot Ymin/Ymax … Minimum/maximum y -axis [...]

  • Page 110

    5-4 I V-Window Memory You can store up to six sets of V-Window settings in V-Window memory for recall when you need them. S To store V-Window settings 1. From the Main Menu, enter the GRAPH mode. 2. Press  (V-WIN) to display the V-Window setting screen, and input the values you want. 3. Press  (STO) to display the pop-up window. 4. Press a[...]

  • Page 111

    5-5 I Zoom This function lets you enlarge and reduce the graph on the screen. 1. Draw the graph. 2. Specify the zoom type.  (ZOOM)  (BOX) ... Box zoom Draw a box around a display area, and that area is enlarged to fill the entire screen.  (FACT) Specifies the x -axis and y -axis zoom factors for factor zoom.  (IN)/  (OUT) ... Fact[...]

  • Page 112

    5-6   (ZOOM)  (BOX)  B ~ B U  B ~ B , D ~ D U • You must specify two different points for box zoom, and the two points cannot be on a straight line vertically or horizontally from each other. 3. Drawing a Graph You can store up to 20 functions in memory. Functions in memory can be edited, recalled, and graphed. I Specifying the [...]

  • Page 113

    5-7 S To store a parametric function Example To store the following expressions in memory areas Xt3 and Yt3: x = 3 sinT y = 3 cosT  (TYPE)  (Parm) (Specifies parametric expression.) B QTU (Inputs and stores x expression.) B ATU (Inputs and stores y expression.) S To create a composite function Example To use relations in Y1 and Y2 to create c[...]

  • Page 114

    5-8 The above three screens are produced using the Trace function. See “Function Analysis” (page 5-29) for more information. I Editing and Deleting Functions S To edit a function in memory Example To change the expression in memory area Y1 from y = 2 x 2 – 5 to y = 2 x 2 – 3 C (Displays cursor.) CCCCC # B (Changes contents.) U (Stores new g[...]

  • Page 115

    5-9 3. Press  (Yes) to delete the function or  (No) to abort the procedure without deleting anything. • Using the above procedure to delete one line of a parametric function (such as Xt2) also will delete the applicable paired line (Yt2, in the case of Xt2). I Selecting Functions for Graphing S To specify the draw/non-draw status of a graph[...]

  • Page 116

    5-10 I Graph Memory Graph memory lets you store up to 20 sets of graph function data and recall it later when you need it. A single save operation saves the following data in graph memory. • All graph functions in the currently displayed Graph relation list (up to 20) • Graph types • Function graph line information • Draw/non-draw status ?[...]

  • Page 117

    5-11 S To recall a stored graph 1. After graphing in GRAPH mode, press *  (PICT)  (RCL) to display the pop-up window. 2. Press a number key to specify the Picture memory for the picture you want to recall, and then press U . Pressing @ U recalls the picture function in Picture Memory 1 (Pict 1). • Recalling picture memory contents causes th[...]

  • Page 118

    5-12 Pressing  (SEL) while one of the function’s is highlighted would causes its “ R ” or “ B ” indicator to be cleared. A function without an indicator is drawn as the main screen graph (on the left side of the display). Example Graph y = x ( x + 1)( x – 1) in the main screen and sub-screen. Use the following V-Window settings. (Mai[...]

  • Page 119

    5-13   (V-WIN)  D U D U A U A  @? U @? U D U)   (SKTCH)  (Cls) U  (GRPH)  (Y=) A TV B T C U • Certain functions can be graphed easily using built-in function graphs. • You can draw graphs of the following built-in scientific functions. Rectangular Coordinate Graph Polar Coordinate Graph • sin x • co[...]

  • Page 120

    5-14   (TYPE)  (Y=) ?T (A) TV B   ( [ ) ?T (A)   (=) B@  @   ( ] ) U   (DRAW) • The value of only one of the variables in the expression can change. • Any of the following cannot be used for the variable name: X, Y, r , Q , T. • You cannot assign a variable to the variable inside the function. ?[...]

  • Page 121

    5-15  K RUN • MAT (or RUN) ?  (Y)   (=) T  G (CLIP) BBB  (COPY)  K GRAPH  K (SET UP) _ AAAA *  (Off) ) *fx-7400G ɉ , fx-9750G ɉ : AAA   (V-WIN)  D U D U A U A  @? U @? U D U)   (TYPE)  (Y=) A TV B T C U  (DRAW)   H (PASTE) • Paste is supported only when “Off” is selected[...]

  • Page 122

    5-16 S To generate a table using a table range Example To generate a table as the value of variable x changes from –3 to 3, in increments of 1 K TABLE  (SET)  B U B U @ U The numeric table range defines the conditions under which the value of variable x changes during function calculation. Start ............ Variable x start value End .....[...]

  • Page 123

    5-17 S To generate a differential number table Changing the setting of Setup screen’s Derivative item to On causes a number table that includes the derivative to be displayed whenever you generate a number table. Locating the cursor at a diff erential coefficient displa ys “ dy / dx ” in the top line, which indicates diff erential. • An err[...]

  • Page 124

    5-18 I Copying a Table Column to a List A simple operation lets you copy the contents of a numeric table column into a list. Use B and C to move the cursor to the column you want to copy. The cursor can be in any row. S To copy a table to a list Example To copy the contents of Column x into List 1 *  (LMEM) Input the number of the list you want [...]

  • Page 125

    5-19   (TYPE)  (Y=) B TV A U TVU   (SET)  B U B U @ U)   (TABL)   (G • CON) • You can use Trace, Zoom, or Sketch after drawing a graph. I Simultaneously Displaying a Number Table and Graph Specifying T+G for Dual Screen on the Setup screen makes it possible to display a number table and graph at the same time. 1[...]

  • Page 126

    5-20 8. Dynamic Graphing Important! • The fx-7400G ɉ is not equipped with the DYNA mode. I Using Dynamic Graph Dynamic Graph lets you define a range of values for the coefficients in a function, and then observe how a graph is affected by changes in the value of a coefficient. It helps to see how the coefficients and terms that make up a functio[...]

  • Page 127

    5-21 Repeats from  through  . I Drawing a Dynamic Graph Locus Turning on the Dynamic Graph locus setting on the Setup screen lets you overlay a graph drawn by changing the coefficient values. 1. From the Main Menu, enter the DYNA mode. 2. Make V-Window settings. 3. On the Setup screen, select “On” for “Locus”. 4. Use the cursor keys t[...]

  • Page 128

    5-22 I Graph Calculation DOT Switching Function Use this function to specify drawing of all the dots on the Dynamic Graph X-axis, or every other dot. This setting is value for Dynamic Func Y= graphic only. 1. Press K (SET UP) to display the Setup screen. 2. Press AAA * to select Y=Draw Speed. *fx-9750G ɉ : AA 3. Select the graphing method. ?[...]

  • Page 129

    5-23 2. Specify the recursion type.  (TYPE)  ( a n ) ... {general term of sequence a n }  ( a n +1 ) ... {linear two-term recursion}  ( a n +2 ) ... {linear three-term recursion} 3. Input the recursion formula. 4. Specify the table range. Specify a start point and end point for n . If necessary, specify a value for the initial term, and[...]

  • Page 130

    5-24  K RECUR   (V-WIN) ? U E U @ U A  @D U ED U D U)   (TYPE)  ( a n +1 ) A  ( a n ) @ U   (SET)  ( a 1 ) @ U E U @ U)   (SEL+S) D  ( ) )   (TABL)   (G • CON) • After drawing a graph, you can use Trace, Zoom, and Sketch. • Press to return to the number table screen. After drawing a[...]

  • Page 131

    5-25   (TABL)   (PHAS) • If you enter three expressions on the RECUR mode screen and select all of them for table creation, you will need to specify which two of the three expressions you want to use to draw the phase plot. To do so, use the function menu that appears when you press  (PHAS) on the table screen.  ( a • b ) ....[...]

  • Page 132

    5-26 I WEB Graph (Convergence, Divergence) y = f ( x ) is graphed by presuming a n +1 = y , a n = x for linear two-term regression a n +1 = f ( a n ) composed of a n +1 , a n . Next, it can be determined whether the function is convergent or divergent. 1. From the Main Menu, enter the RECUR mode. 2. Make V-Window settings. 3. Select 2-term recursio[...]

  • Page 133

    5-27 10. Graphing a Conic Section Important! • The fx-7400G ɉ is not equipped with the CONICS mode. I Graphing a Conic Section You can use the CONICS mode to graph parabolas, circles, ellipses, and hyperbolas. You can input a rectangular coordinate function, polar coordinate function, or parametric function for graphing. 1. From the Main Menu, e[...]

  • Page 134

    5-28 1. From the Main Menu, enter the GRAPH mode. 2. Make V-Window settings. 3. On the Setup screen, use the “Sketch Line” setting to specify the line style you want.  ( ) … Normal (initial default)  ( ) … Thick (twice the thickness of Normal)  ( ) … Broken (thick broken)  ( ) … Dot (dotted) 4. Input the function of the grap[...]

  • Page 135

    5-29   (TYPE)  (Y=) T  T A T_ A U   (DRAW)   (SKTCH)  (Tang)  C ~ C U * 1 * 1 You can draw a tangent line in succession by moving the “ ” pointer and pressing U . 12. Function Analysis I Reading Coordinates on a Graph Line Trace lets you move a pointer along a graph and read out coordinates on the[...]

  • Page 136

    5-30 1. From the Main Menu, enter the GRAPH mode. 2. On the Setup screen, specify On for Derivative. 3. Draw the graph. 4. Press  (TRCE), and the pointer appears at the center of the graph. The current coordinates and the derivative also appear on the display at this time. I Graph to Table You can use trace to read the coordinates of a graph [...]

  • Page 137

    5-31  (Y-ICPT) ... y -intercept  (ISCT) ... Intersection of two graphs  ( E )  (Y-CAL) ... y -coordinate for given x -coordinate  ( E )  (X-CAL) ... x -coordinate for given y -coordinate  ( E )  ( ° dx ) ... Integral value for a given range 4. When there are multiple graphs on the screen, the selection cursor ( I ) is locat[...]

  • Page 138

    5-32 • You can calculate the point of intersection for rectangular coordinate graphs (Y= f ( x ) type) and inequality graphs (Y  f ( x ), Y  f ( x ), Y P  f ( x ) or Y O  f ( x )) only. • Either of the following can cause poor accuracy or even make it impossible to obtain solutions. - When a solution is a point of tangency bet[...]

  • Page 139

    5-33 Example Graph the function shown below, and then determine the integral value at (–2, 0). Y1 = x ( x + 2)( x – 2) • You can also specify the lower limit and upper limit by inputting them on the 10-key pad. • When setting the range, make sure that the lower limit is less than the upper limit. • Integral values can be calculated for re[...]

  • Page 140

    5-34 S To calculate the focus and length of latus rectum [G-SL V]-[FOCS]/[LEN] Example To determine the focus and length of latus rectum for the parabola X = (Y – 2) 2 + 3 Use the following V-Window settings. Xmin = –1, Xmax = 10, Xscale = 1 Ymin = –5, Ymax = 5, Yscale = 1 K CONICS U @ U A U B U (DRAW)  (G-SLV)  (FOCS) (Calculates[...]

  • Page 141

    6-1 Chapter 6 Statistical Graph s and Calculations Impor tant! This chapter contains a number of gr aph screen shots. In each case, new data v alues were input in order to highlight the par ticular characteristics of the graph being dr awn. Note that when y ou tr y to dra w a similar graph, the unit uses data v alues that y ou hav e input using the[...]

  • Page 142

    6-2 • List The initial def ault statistical data is List 1 for single-v ar iab le data, and List 1 and List 2 for paired-v ariable data. Y ou can specify which statistical data list you w ant to use for x -data and y -data. • Frequency Nor mally , each data item or data pair in the statistical data list is represented on a gr aph as a point. Wh[...]

  • Page 143

    6-3 • Display (pie graph v alue display setting) •{ % } / { Data } ... F or each data element {displa y as percentage}/{display as v alue} • % Sto Mem (Specifies storage of percenta g e v alues to a list.) •{ None } / { List } ... F or percentage v alues: {Do not store to list}/{Specify List 1 to 26 and store} When “Bo x” (med-box graph[...]

  • Page 144

    6-4 2. Calculating and Graphing Single-V ariable Statistical Data Single-v ariable data is data with only a single v ar iab le. If y ou are calculating the av erage height of the members of a class f or example , there is only one v ar iab le (height). Single-v ariable statistics include distribution and sum. The f ollowing types of g raphs are av [...]

  • Page 145

    6-5 The displa y screen appears as shown abov e before the g raph is drawn. At this point, you can change the Star t and Width values . I Med-bo x Graph This type of graph lets y ou see how a large number of data items are grouped within specific ranges . A bo x encloses all the data in an area from the first quar tile (Q1) to the third quar tile ([...]

  • Page 146

    6-6 I Normal Distrib ution Curve The nor mal distribution curve is g raphed using the normal distribution function. XList specifies the list where the data is input, while F req specifies the list where the data frequency is input. 1 is specified f or F req when frequency is not specified. I Br oken Line Graph Lines connect center points of a histo[...]

  • Page 147

    6-7 • Press  (DRA W) to retur n to the original single-v ariable statistical gr aph. • When Mod has multiple solutions , the y are all displa yed. • Y ou can use the Setup screen’ s “Q1Q3 T ype” setting to select either “Std” (standard calculation) or “OnData” (F rench calculation) for the Q1 and Q3 calculation mode . F or de[...]

  • Page 148

    6-8 Center P oint Center P oint S OnData The Q1 and Q3 v alues f or this calculation method are descr ibed belo w . Q1 = {value of element whose cum ulative frequency ratio is g reater than 1/4 and nearest to 1/4} Q3 = {value of element whose cum ulative frequency ratio is g reater than 3/4 and nearest to 3/4} The f ollowing shows an actual e xampl[...]

  • Page 149

    6-9 3. Calculating and Graphing P aired-V ariab le Statistical Data I Drawing a Scatter Dia gram and xy Line Graph The f ollowing procedure plots a scatter diagram and connects the dots to produce an xy line graph. 1. F rom the Main Menu, enter the S TAT mode. 2. Input the data into a list. 3. Specify Scat (scatter diagram) or xy ( xy line g raph) [...]

  • Page 150

    6-10 Example Input the two sets of data shown below and plot the data on a scatter diagram. Ne xt, perform logarithmic regression on the data to displa y the regression parameters, and then draw the corresponding regression graph. 0.5, 1.2, 2.4, 4.0, 5.2 ( x List) –2.1, 0.3, 1.5, 2.0, 2.4 ( y List)  K S TAT  ?D U @A U AC U C U D[...]

  • Page 151

    6-11 I Graphing Statistical Calculation Results While the parameter calculation result is on the displa y , you can graph the displa yed regression f or mula b y pressing  (DRA W). I Linear Regression Graph Linear regression uses the method of least squares to plot a straight line that passes close to as many data points as possib le, and retur [...]

  • Page 152

    6-12 Cubic regression Model f or mula....... y = ax 3 + bx 2 + cx + d a .......... regression third coefficient b .......... regression second coefficient c .......... regression first coefficient d .......... regression constant ter m ( y -intercept) Quartic regression Model f or mula....... y = ax 4 + bx 3 + cx 2 + dx + e a .......... regression [...]

  • Page 153

    6-13 I P ower Regression Graph P ow er regression e xpresses y as a propor tion of the power of x . The standard pow er regression f or mula is y = a × x b , so if w e take the logarithm of both sides we get In y = In a + b × In x . Next, if w e sa y X = In x , Y = In y , and A = In a , the f or m ula corresponds to linear regression f or mula Y [...]

  • Page 154

    6-14 While the statistical data list is on the displa y , recall the Setup screen to specify a LIST (“List 1” through “List 26”) for “Resid List”. Calculated residual data is stored in the specified list. The v er tical distance from the plots to the regression model will be stored in the list. Plots that are higher than the regression [...]

  • Page 155

    6-15 4. P erf orming Statistical Calculations All of the statistical calculations up to this point were perf or med after displa ying a graph. The f ollowing procedures can be used to perf orm statistical calculations alone. S T o specify statistical calculation data lists Y ou hav e to input the statistical data for the calculation y ou want to pe[...]

  • Page 156

    6-16 These v alues can also be directly obtained b y displa ying the statistical data list and pressing  (CALC)  (2V AR). After this, pressing D or A scrolls the statistical calculation result displa y so you can vie w v ariable characteristics. F or details on the meanings of these statistical values, see “Displa ying the Calculation Resul[...]

  • Page 157

    6-17 • Linear Regression ( ax + b ) ............. ( a + bx )............. • Quadratic Regression..................... • Cubic Regression ........................... • Quar tic Regression ........................ • Logarithmic Regression.................. • Exponential Repression ( a · e bx ) ....... ( a · b x ) ........ • P ow er Re[...]

  • Page 158

    6-18 3. Pressing T or a number k ey at this time causes the x -v alue input dialog bo x to reappear so you can perf or m another estimated v alue calculation if you w ant. • The pointer does not appear if the calculated coordinates are not within the displa y range. • The coordinates do not appear if “Off ” is specified for the “Coord” [...]

  • Page 159

    6-19 I Normal Probability Distrib ution Calculation Y ou can calculate nor mal probability distributions f or single-variab le statistics with the R U N•M A T (or RU N ) mode. Press *  ( E )  (PROB) (  (PR OB) on the fx-7400G II )  ( E ) to display a function menu, which contains the f ollowing items. •{ P( } / { Q( } / { R( } ... o[...]

  • Page 160

    6-20 4. Press K , select the R U N•M A T (or RU N ) mode, press *  ( E )  (PR OB) (  (PROB) on the fx-7400G II ) to recall the probability calculation (PR OB) menu.  (PR OB)*  ( E )  ( t () @E?D U * fx-7400G II :  (PROB) (Normalized v ar iate t f or 160.5 cm) Result: –1.633855948 ( –1.634)  ( t () @FDD U (N[...]

  • Page 161

    6-21 1. F rom the Main Menu, enter the R UN • MA T mode. 2. Press the k eys as f ollows. *  ( S TAT )  (DIST)  (NORM)  (NPd)   ( { ) @AB   ( } ) @DA U • F or details about what you can do with the distrib ution function and its syntax, see “P erf or ming Distribution Calculations in a Program” (page[...]

  • Page 162

    6-22 I Calculations Using the TEST Command Impor tant! • The f ollowing operations cannot be perf or med on the fx-7400G II . Y ou can use special functions in the R U N•M A T mode or PRGM mode to perform calculations that are the same as the S TAT mode Z T est, t T est, and other test calculations (page 6-22). Example T o determine the z score[...]

  • Page 163

    6-23 1-Sample Z T est tests for the unkno wn population mean when the population standard de viation is known. 2-Sample Z T est tests the equality of the means of two populations based on independent samples when both population standard de viations are known. 1-Prop Z T est tests f or an unknown propor tion of successes. 2-Prop Z T est tests to co[...]

  • Page 164

    6-24 After setting all the parameters , use A to mov e the highlighting to “Ex ecute” and then press one of the function ke ys shown below to perf or m the calculation or dr a w the graph. •  (CALC) ... P erforms the calculation. •  (DRA W) ... Draws the gr aph. • V -Window settings are automatically optimiz ed for dr awing the g ra[...]

  • Page 165

    6-25 • [Sav e Res] does not sav e the M condition in line 2. S 2-Sample Z T est This test is used when the standard de viations for two populations are kno wn to test the h ypothesis. The 2-Sample Z T est is applied to the nor mal distribution. P erf or m the f ollowing k ey operations from the statistical data list.  (TEST)  (Z)  (2-S) [...]

  • Page 166

    6-26 Calculation Result Output Example Prop x 0.5 ....... direction of test • [Sav e Res] does not sav e the Prop condition in line 2. S 2-Pr op Z T est This test is used to compare the propor tion of successes. The 2-Prop Z T est is applied to the nor mal distribution. P erf or m the f ollowing k ey operation from the statistical data list.  [...]

  • Page 167

    6-27 Pressing  (P) displa ys the p -value at the bottom of the displa y without displaying the pointer . • Ex ecuting an analysis function automatically stores the t and p values in alpha v ar iab les T and P , respectively . S 1-Sample t T est This test uses the h ypothesis test for a single unkno wn population mean when the population standa[...]

  • Page 168

    6-28 The f ollowing shows the parameter data specification items that are diff erent from list data specification. Calculation Result Output Example  M 1 x M 2 ............ direction of test s p ................. Display ed only when P ooled: On setting. • [Sav e Res] does not sav e the M 1 condition in line 2. S LinearReg t T est LinearReg[...]

  • Page 169

    6-29 When there is a list specified f or the [Resid List] item on the Setup screen, regression formula residual data is automatically sav ed to the specified list after the calculation is finished. • Y ou cannot dra w a graph f or LinearReg t T est. • [Sav e Res] does not sav e the B & R conditions in line 2. • When the list specified by [...]

  • Page 170

    6-30 Calculation Result Output Examples CNTRB ......... list f or output of contr ib ution values • Ƶ 2 tw o-wa y T est C 2 two-wa y T est sets up a number of independent groups and tests h ypothesis related to the propor tion of the sample included in each group . The C 2 T est is applied to dichotomous v ariables (v ar iab le with two possible[...]

  • Page 171

    6-31 P erf or m the f ollowing k ey operations from the statistical data list.  (TEST)  (F) The f ollowing shows the parameter data specification items that are diff erent from list data specification. Calculation Result Output Example  S 1 x S 2 ............ direction of test ¯ x 1 .................. Displa yed only f or Data: List se[...]

  • Page 172

    6-32 P erf or m the f ollowing k ey operations from the statistical data list.  (TEST)  (ANO V) The f ollowing is the meaning of each item in the case of list data specification. How Many ..... selects One-W ay ANO V A or T wo-W a y ANO V A (number of le v els) F actor A ........ categor y list (List 1 to 26) Dependnt ...... list to be used f[...]

  • Page 173

    6-33 p ....................... p -v alue df ..................... degrees of freedom SS ..................... sum of squares MS ................... mean squares With T wo-W ay ANO V A, you can dra w Interaction Plot graphs . The number of gr aphs depends on F actor B, while the n umber of X-axis data depends on the F actor A. The Y -axis is the av [...]

  • Page 174

    6-34 Define List 3 (the data f or each group) as Dependent. Define List 1 and List 2 (the f actor numbers f or each data item in List 3) as F actor A and F actor B respectively . Ex ecuting the test produces the follo wing results. • Time diff erential (A) lev el of significance P = 0.2458019517 The le vel of significance ( p = 0.2458019517) is g[...]

  • Page 175

    6-35 6. Confidence Interval Impor tant! • Confidence inter v al calculations cannot be performed on the fx-7400G II . A confidence inter v al is a range (inter v al) that includes a statistical value, usually the population mean. A confidence inter v al that is too broad makes it difficult to get an idea of where the population v alue (true value[...]

  • Page 176

    6-36 I Z Interval S 1-Sample Z Inter v al 1-Sample Z Interval calculates the confidence interval f or an unknown population mean when the population standard de viation is known. P erf or m the f ollowing k ey operations from the statistical data list.  (INTR)  (Z)  (1-S) The f ollowing shows the parameter data specification items that are[...]

  • Page 177

    6-37 Data is specified using parameter specification. Calculation Result Output Example S 2-Pr op Z Interval 2-Prop Z Interv al uses the number of data items to calculate the confidence inter v al f or the deff erence between the propor tion of successes in two populations. P erf or m the f ollowing k ey operations from the statistical data list. ?[...]

  • Page 178

    6-38 S 2-Sample t Inter v al 2-Sample t Interval calculates the confidence interval f or the difference betw een two population means when both population standard de viations are unknown. The t inter val is applied to t distribution. P erf or m the f ollowing k ey operations from the statistical data list.  (INTR)  (t)  (2-S) 7. Distrib u[...]

  • Page 179

    6-39 •  (DIST)  (NORM) ... Normal distr ib ution (page 6-39)  (t) ... Student- t distribution (page 6-41)  (CHI) ... C 2 distribution (page 6-42)  (F) ... F distribution (page 6-43)  (BINM) ... Binomial distr ib ution (page 6-44)  ( E )  (POISN) ... P oisson distr ib ution (page 6-46)  ( E )  (GEO) ... Geometr ic dis[...]

  • Page 180

    6-40 • Nor mal probability density is applied to standard normal distr ib ution. • Specifying Ʊ = 1 and ƫ = 0 specifies standard nor mal distribution. Calculation Result Output Examples When a list is specified Graph when an x -v alue is specified • Graphing is suppor ted only when a v ar iab le is specified and a single x -value is entered[...]

  • Page 181

    6-41 T ail: Left upper boundar y of integration inter v al f ( x ) dx = p   Upper f ( x ) dx = p   Lower f ( x ) dx = p  Upper Lower f ( x ) dx = p   Upper f ( x ) dx = p   Lower f ( x ) dx = p  Upper Lower T ail: Right low er boundar y of integration inter v al T ail: Central upper and low er boundaries of[...]

  • Page 182

    6-42 • Graphing is suppor ted only when a v ar iab le is specified and a single x -value is entered as data. • In verse Student- t Cumulative Distrib ution  (DIST)  (t)  (InvN) Inv erse Student- t Cumulativ e Distr ib ution calculates the low er bound v alue of a Student- t cum ulative distribution f or a specified df (degrees of freed[...]

  • Page 183

    6-43 Calculation Result Output Examples When a list is specified Graph when v ar iab le ( x ) is specified • Graphing is suppor ted only when a v ar iab le is specified and a single x -value is entered as data. • In verse Ƶ 2 Cumulative Distrib ution  (DIST)  (CHI)  (InvC) Inv erse Ƶ 2 Cumulativ e Distr ib ution calculates the low er[...]

  • Page 184

    6-44 • F Cum ulative Distrib ution  (DIST)  (F)  (FCd) F Cumulativ e Distr ib ution calculates the cumulative probability of an F distribution between a lo wer bound and an upper bound. Calculation Result Output Examples When a list is specified Graph when v ar iab le ( x ) is specified • Graphing is suppor ted only when a v ar iab le [...]

  • Page 185

    6-45 Calculation Result Output Examples When a list is specified When v ariable ( x ) is specified • There is no graphing for Binomial Probability . • Binomial Cumulative Distribution  (DIST)  (BINM)  (BCd) Binomial Cumulativ e Distr ib ution calculates the cumulative probability in a binomial distribution that the success will occur o[...]

  • Page 186

    6-46 Impor tant! When e xecuting the In verse Binomial Cumulativ e Distribution calculation, the calculator uses the specified Area v alue and the v alue that is one less than the Area value minimum n umber of significant digits ( > Area v alue) to calculate minimum n umber of trials values . The results are assigned to system v ariables x In v [...]

  • Page 187

    6-47 Calculation Result Output Examples When a list is specified When v ariable ( x ) is specified • There is no graphing for P oisson Cumulative Distribution. • In verse P oisson Cum ulative Distribution  (DIST)  ( E )  (POISN)  (InvP) Inv erse P oisson Cumulativ e Distr ib ution calculates the minimum number of trials of a P oisso[...]

  • Page 188

    6-48 Calculation Result Output Examples When a list is specified When v ariable ( x ) is specified • There is no graphing for Geometric Probability . • Geometric Cumulative Distribution  (DIST)  ( E )  (GEO)  (GCd) Geometric Cumulative Distrib ution calculates the cumulativ e probability in a geometric distr ib ution that the succes[...]

  • Page 189

    6-49 Impor tant! When e xecuting the In verse Geometric Cumulativ e Distr ib ution calculation, the calculator uses the specified Area v alue and the v alue that is one less than the Area value minimum n umber of significant digits ( > Area v alue) to calculate minimum n umber of trials values . The results are assigned to system v ariables x In[...]

  • Page 190

    6-50 • In verse Hypergeometric Cumulative Distribution  (DIST)  ( E )  (H.GEO)  (InvH) Inv erse Hypergeometric Cumulative Distribution calculates the minimum number of trials of a h ypergeometr ic cumulativ e probability distr ib ution for specified v alues. Calculation Result Output Examples When a list is specified When v ariable ( [...]

  • Page 191

    6-51 Prop (1-Prop Z T est) ..........sample propor tion test conditions (“ x p 0 ” specifies two-tail test, “< p 0 ” specifies lower one-tail test, “> p 0 ” specifies upper one-tail test.) p 1 (2-Prop Z T est) ...............sample propor tion test conditions (“ x p 2 ” specifies two-tail test, “< p 2 ” specifies one-ta[...]

  • Page 192

    6-52 XList ...................................list f or x -axis data (List 1 to 6) YList ...................................list f or y -axis data (List 1 to 6) C-Le vel ...............................confidence le vel (0  C-Le vel < 1) P ooled ................................pooling On (in effect) or Off (not in eff ect) x (Distribution) ...[...]

  • Page 193

    6-53 9. Statistic Form ula I T est T est 1-Sample Z T est  = ( o –  0 )/(  / '  ) 2-Sample Z T est  = ( o 1 – o 2 )/ (  /  1 ) + (  /  2 ) 2 1 2 2 1-Prop Z T est z = ( x / n – p 0 )/ p 0 (1 – p 0 )/ n 2-Prop Z T est z = ( x 1 / n 1 – x 2 / n 2 )/ p ˆ (1 – p ˆ )(1/ n 1 + 1/ n 2 ) 1-Sample t T[...]

  • Page 194

    6-54 I Confidence Inter v al Confidence Interval Left: confidence inter val lo wer limit (left edge) Right: confidence inter v al upper limit (r ight edge) 1-Sample Z Inter v al     = o +  ( /2) ·  / '  α 2-Sample Z Inter v al     = ( o 1 – o 2 ) +  ( /2)  [...]

  • Page 195

    6-55 Distribution In verse Cumulative Distrib ution Nor mal Distribution p = p ( x ) dx Upper –   p = p ( x ) dx Lower   p = p ( x ) dx Upper Lower  tail = Left tail = Right tail = Central Student- t Distribution p = p ( x ) dx Lower   C 2 Distribution F Distribution I Distrib ution (Discrete) Distribution Pr obability Binomi[...]

  • Page 196

    7-1 Chapter 7 Financial Calculation ( T VM ) Important! • The fx-7400G ɉ is not equipped with the TVM mode. 1. Before Performing Financial Calculations From the Main Menu, enter the TVM mode and display the Financial screen like the one shown below. Financial 1 screen Financial 2 screen • { SMPL } … {simple interest} • { CMPD } … {compou[...]

  • Page 197

    7-2 I Graphing in the TVM Mode After performing a financial calculation, you can use  (GRPH) to graph the results as shown below. • Pressing  (TRCE) while a graph is on the display activates Trace, which can be used to look up other financial values. In the case of simple interest, for example, pressing C displays PV , SI , and SFV . Pre[...]

  • Page 198

    7-3 After configuring the parameters, use one of the function menus noted below to perform the corresponding calculation. • { SI } … {simple interest} • { SFV } … {simple future value} • An error (Ma ERROR) occurs if parameters are not configured correctly. Use the following function menus to maneuver between calculation result screens. ?[...]

  • Page 199

    7-4 S I % i (effective interest rate) i (effective interest rate) is calculated using Newton’s Method. PV + As 307 + B s FV =0 To I % from i (effective interest rate) n ............ number of compound periods FV ......... future value I % ......... annual interest rate P/Y ........ installment periods per year PV ......... present value C/Y .....[...]

  • Page 200

    7-5 After configuring the parameters, use one of the function menus noted below to perform the corresponding calculation. • { n } … {number of compound periods} • { I% } … {annual interest rate} • { PV } … {present value} (Loan: loan amount; Savings: balance) • { PMT } … {payment} (Loan: installment; Savings: deposit) • { FV } …[...]

  • Page 201

    7-6 Investment appraisal can be used to clearly determine whether an investment is realizing profits that were originally targeted. S NPV n : natural number up to 254 S NFV S IRR In this formula, NPV = 0, and the value of IRR is equivalent to i × 100. It should be noted, however, that minute fractional values tend to accumulate during the subse[...]

  • Page 202

    7-7 • An error (Ma ERROR) occurs if parameters are not configured correctly. Use the following function menus to maneuver between calculation result screens. • { REPT } … {parameter input screen} • { GRPH } … {draws graph} After drawing a graph, you can press  (TRCE) to turn on trace and read calculation results along the graph. Pre[...]

  • Page 203

    7-8 BAL 0 = PV ( ,17 1 = 0 and PRN 1 = 307 at beginning of installment term) S Con ver ting between the nominal interest rate and eff ective interest rate The nominal interest rate ( I % value input by user) is converted to an effective interest rate ( I % ' ) for installment loans where the number of installments per year is different from th[...]

  • Page 204

    7-9 • { 3 INT } … {total interest paid from installment PM1 to installment PM2} • { 3 PRN } … {total principal paid from installment PM1 to installment PM2} • { CMPD } … {compound interest screen} • An error (Ma ERROR) occurs if parameters are not configured correctly. Use the following function menus to maneuver between calculation r[...]

  • Page 205

    7-10 After configuring the parameters, use one of the function menus noted below to perform the corresponding calculation. • {  EFF } … {converts annual percentage rate to effective interest rate} • {  APR } … {converts effective interest rate to annual percent rate} • An error (Ma ERROR) occurs if parameters are not configured corr[...]

  • Page 206

    7-11 Use the following function menu to maneuver between calculation result screens. • { REPT } … {parameter input screen} 8. Day/Date Calculations You can calculate the number of days between two dates, or you can determine what date comes a specific number of days before or after another date. Press  (DAYS) from the Financial 2 screen to d[...]

  • Page 207

    7-12 9. Depreciation Depreciation lets you calculate the amount that a business expense can be offset by income (depreciated) over a given year. • This calculator supports the following four types of depreciation calculations. straight-line ( SL ), fixed-percentage ( FP ), sum-of-the-years’-digits ( SYD ), or declining-balance ( DB ). • Any o[...]

  • Page 208

    7-13 S Declining-Balance Method (DB) DB j : depreciation charge for the j th year RDV j : remaining depreciable value at the end of j th year I % : depreciation factor Press  (DEPR) from the Financial 2 screen to display the following input screen for depreciation calculation.  ( E )  (DEPR) n ............ useful life I % ......... depreci[...]

  • Page 209

    7-14 An error (Ma ERROR) occurs if parameters are not configured correctly. Use the following function menu to maneuver between calculation result screens. • { REPT } … {parameter input screen} • { TABL } … {displays table} • { GRPH } … {draws graph} 10. Bond Calculations Bond calculation lets you calculate the purchase price or the ann[...]

  • Page 210

    7-15 • For more than one coupon period to redemption S Annual Yield (YLD) YLD is calculated using Newton’s Method. Press  (BOND) from the Financial 2 screen to display the following input screen for Bond calculation.  ( E )  (BOND) d1 .......... purchase date (month, date, year) d2 .......... redemption date (month, date, year) RDV ...[...]

  • Page 211

    7-16 MEMO Screen • The following describes the meaning of the MEMO screen display items. PRD ... number of days from d1 to d2 N ......... number of coupon payments between settlement date and maturity date A ......... accrued days B ......... number of days from settlement date until next coupon payment date (D−A) D ........ number of days in c[...]

  • Page 212

    8-1 Chapter 8 P rogramming 1. Basic Pr ogramming Steps Commands and calculations are e xecuted sequentially , just like man ual calculation multi- statements. 1. F rom the Main Menu, enter the PRGM mode . When you do , a program list appears on the displa y . Selected program area (use D and A to mov e) Files are listed in the alphabetic sequence o[...]

  • Page 213

    8-2 UU @? U S when A = 10 U V when A = 10 UU @D U S when A = 15 U * 1 V when A = 15 * 1 Pressing U while the program’ s final result is on the displa y e xits the program. • Y ou can also r un a prog ram while in the R U N•M A T (or RUN ) mode b y inputting: Prog "<file name>" U . • Pressing U while the final result of a pro[...]

  • Page 214

    8-3 •{ I/O } ... {I/O control/transf er command menu} •{ : } ... {multi-statement command} •{ STR } ... {string command} See “Command Reference” on page 8-7 f or full details on each of these commands. • Pressing K (SET UP) displa ys the mode command menu shown below . • { ANGL } / { COOR } / { GRID } / { AXES } / { LABL } / { DISP[...]

  • Page 215

    8-4 • Error messages appearing when the program is run • Results that are not within your expectations S T o eliminate bugs that cause error messages An error message, lik e the one shown to the right, appears whene ver something illegal occurs during program e x ecution. When such a message appears, press ) to displa y the place in the program[...]

  • Page 216

    8-5 4. Each press of U or  (SRC) causes the cursor to jump to the ne xt instance of the data you specified.* 2 * 1 The message “Not Found” appears when the search data you specify cannot be f ound in the program. * 2 If there are no more instances of the data you specified, the search operation ends. • Y ou cannot specify the newline symbo[...]

  • Page 217

    8-6 - Press ) to clear the error and retur n to the file name editing screen. - Press to clear the input file name and input a new one . I Deleting a Pr ogram S T o delete a specific program 1. While the progr am list is on the displa y , use D and A to mov e the highlighting to the name of the program y ou want to delete. 2. Press  (DEL). 3. Pr[...]

  • Page 218

    8-7 5. Command Reference I Command Index Break.................................................... 8-10 CloseCompor t38k ................................ 8-17 ClrGraph ............................................. 8-14 ClrList .................................................. 8-14 ClrMat .................................................. 8-14 ClrT[...]

  • Page 219

    8-8 I Basic Op eration Commands ? (Input Command) Function: Prompts f or input of values f or assignment to variables during progr am e xecution. Syntax: ? m <v ariable name>, "<prompt>" ? m <v ar iab le name> Example: ? m A = Description: • This command momentarily interr upts progr am ex ecution and prompts for in[...]

  • Page 220

    8-9 I P r o g r a mC o m m a n d s( C O M ) If~Then~(Else~)IfEnd Function: The Then-statement is e xecuted only when the If-condition is true (non-zero). The Else-statement is e xecuted when the If-condition is f alse (0). The IfEnd-statement is alwa ys e xecuted f ollowing either the Then-statement or Else-statement. Syntax: If <condition> _[...]

  • Page 221

    8-10 Do~LpWhile Function: This command repeats specific commands as long as its condition is true (non- zero). Syntax: Do _ : ^ <statement> _ : ^ LpWhile <condition> numeric expression P arameters: e xpression Description: • This command repeats the commands contained in the loop as long as its condition is true (non-zero). When the c[...]

  • Page 222

    8-11 Prog Function: This command specifies e xecution of another progr am as a subroutine. In the R U N•M A T (or RUN ) mode, this command e x ecutes a new progr am. Syntax: Prog "file name" = Example: Prog "ABC" = Description: • Ev en when this command is located inside of a loop , its ex ecution immediately breaks the loop[...]

  • Page 223

    8-12 I Jump Commands (JUMP) Dsz Function: This command is a count jump that decrements the v alue of a control v ar iab le by 1, and then jumps if the current v alue of the v ar iab le is zero . Syntax: V ar iab le V alue x 0 Dsz <v ariable name> : <statement> _ : ^ <statement> V ar iab le V alue = 0 P arameters: variab le name: A[...]

  • Page 224

    8-13 Description: This command increments the v alue of a control v ar iab le by 1, and then tests (checks) it. If the current value is non-zero , ex ecution continues with the ne xt statement. If the current v alue is zero , ex ecution jumps to the statement follo wing the multi-statement command (:), displa y command ( < ), or carr iage return[...]

  • Page 225

    8-14 I C l e a rC o m m a n d s( C L R ) ClrGraph Function: This command clears the graph screen. Syntax: ClrGraph = Description: This command clears the graph screen during progr am e xecution. ClrList Function: This command deletes list data. Syntax: ClrList <list name> ClrList P arameters: list name: 1 to 26, Ans Description: This command [...]

  • Page 226

    8-15 DrawFTG-Con, Dra wFTG-Plt No parameters Function: This command uses v alues in a generated tab le to graph a function. Description: • This command dra ws a function graph in accordance with conditions defined within the program. • Dra wFTG-Con produces a connect type graph, while Dra wFTG-Plt produces a plot type graph. DrawGraph No parame[...]

  • Page 227

    8-16 PlotPhase (Not included on the fx-7400G II ) Function: Graphs a phase plot based on numeric sequences that correspond to the x -axis and y -axis. Syntax: PlotPhase < x -axis numeric sequence name>, < y -axis numeric sequence name> Description: • Only the f ollowing commands can be input f or each argument to specify the recursion[...]

  • Page 228

    8-17 Locate Function: This command displa ys alpha-numer ic char acters at a specific location on the te xt screen. Syntax: Locate <column number>, <line number>, <v alue> Locate <column number>, <line number>, <numeric e xpression> Locate <column number>, <line number>, "<string>" [Ex[...]

  • Page 229

    8-18 Receive38k / Send38k Function: Ex ecutes data send and receive at a data rate of 38 kbps . Syntax: Send38k <e xpression> <variable name> Receiv e38k <list name> Description: • The OpenCompor t38k command must be e xecuted bef ore this command is e xecuted. • The CloseCompor t38k command must be e xecuted after this comman[...]

  • Page 230

    8-19 Exp( Function: Conv er ts a string to an expression, and e xecutes the e xpression. Syntax: Exp("<string>"[)] Exp  Str( Function: Conv er ts a graph e xpression to a string and assigns it to the specified variable . Syntax: Exp  Str(<f or mula>, <string variable name>[)] Description: A graph e xpression (Y n ,[...]

  • Page 231

    8-20 StrMid( Function: Extracts from the n -th to the m -th character of a string. Syntax: StrMid("<string>", n [, m )] (0  n  9999, n is a natural number) Description: Omitting “ m ” will e xtract from the n -th character to the end of the string. StrRight( Function: Copies a string up to the n th character from the right[...]

  • Page 232

    8-21 I Othe r RclCapt Function: Displa yed the contents specified by the capture memory number . Syntax: RclCapt <capture memor y number> (capture memory number : 1 to 20) 6. Using Calculator Functions in Pr ograms I Te x t D i s p l a y Y ou can include te xt in a program b y simply enclosing it between double quotation marks. Such te xt app[...]

  • Page 233

    8-22 Ex ecuting this program produces the f ollowing result. S T o calculate a scalar multiplication ( > Row) Example 2 T o calculate the pr oduct of Row 2 of the matrix in Example 1 and the scalar 4 The f ollowing is the syntax to use f or this progr am. > Row 4, A, 2 = Row Matrix name Multiplier Mat A S T oc a l c u l a t eas c a l a rm u l[...]

  • Page 234

    8-23 • Graph dra w operation Dr awGr aph = * 1 Input this Y1 with )  (GRPH)  (Y) @ (display ed as ). A Syntax ERROR will occur if you input “Y” with the calculator ke ys. S Synta x of oth er gr aphing func tions • V -Window View Window <Xmin>, <Xmax>, <Xscale>, <Ymin>, <Ymax>, <Yscale>, <T Q min&[...]

  • Page 235

    8-24 • Dynamic Graph range 1 m D Star t = 5 m D End = 1 m D pitch = I U s i n gT a b l e&G r a p hF u n c t i o n si naP r o g r a m T ab le & Graph functions in a program can generate n umer ic tab les and perf or m graphing operations . The follo wing shows various types of syntax y ou need to use when progr amming with T ab le & Gr[...]

  • Page 236

    8-25 • Descending order  Sor tD (List 1, List 2, List 3) Lists to be sor ted (up to six can be specified)   I U s i n gS t a t i s t i c a lC a l c u l a t i o n sa n dG r a p h si naP r o g r a m Including statistical calculations and graphing oper ations in a program lets you calculate and graph statistical data. S T os e tc o n [...]

  • Page 237

    8-26 • The f ollowing is a typical graph condition specification f or a regression gr aph. S-Gph1 Dra wOn, Linear , List 1, List 2, List 3 = The same f or mat can be used f or the f ollowing types of graphs , by simply replacing “Linear” in the abov e specification with the applicable gr aph type. Linear Regression .......... Linear Logarithm[...]

  • Page 238

    8-27 • Ex ecuting DrawDistNorm performs the abov e calculation in accordance with the specified conditions and dra ws the graph. At this time the ZLow  x  ZUp region on the graph is filled in. • At the same time, the p , ZLo w , and ZUp calculation result values are assigned respectiv ely to v ariables p , ZLo w , and ZUp, and p is assign[...]

  • Page 239

    8-28   • Ex ecuting DrawDistF perf or ms the abov e calculation in accordance with the specified conditions and dra ws the graph. At this time the Lower  x  Upper region on the gr aph is filled in. • At the same time, calculation result p is assigned to v ar iab les p and Ans. I Performin g Statistical Calculations in a Pro[...]

  • Page 240

    8-29 • Sinusoidal regression statistical calculation SinReg List 1, List 2 y -axis data (YList) x -axis data (XList) • Logistic regression statistical calculation LogisticReg List 1, List 2 y -axis data (YList) x -axis data (XList) I P erforming Distrib ution Calculations in a Program (Not av ailable on the fx-7400G II ) • The f ollowing valu[...]

  • Page 241

    8-30 • St ude nt- t Distribution tPD(: Retur ns the Student- t probability density ( p v alue) for the specified data. Syntax: tPD( x , df [)] • A single v alue or a list can be specified f or x . Calculation result p is assigned to variab les p and Ans (ListAns when x is a list). tCD(: Retur ns the Student- t cum ulativ e distribution ( p v al[...]

  • Page 242

    8-31 In vFCD(: Retur ns the in v erse F cum ulative distribution (Lo wer v alue) for the specified data. Syntax: InvFCD( p , ndf , ddf [)] • A single v alue or a list can be specified f or p . The Lower v alue is assigned to the x Inv and Ans v ariables (ListAns when p is a list). • Binomial Distribution BinomialPD(: Retur ns the binomial proba[...]

  • Page 243

    8-32 GeoCD(: Retur ns the geometric cumulativ e distr ib ution ( p value) f or the specified data. Syntax: GeoCD(X,P[)] • A single v alue or a list can be specified f or each X. Calculation result p is assigned to v ariables p and Ans (ListAns when X is a list). In vGeoCD(: Retur ns the in v erse geometr ic cumulativ e distr ib ution for the spec[...]

  • Page 244

    8-33 Syntax: OneSample Z T est " ƫ condition", ƫ 0 , S , List[, F req] Output V alues: Z , p , M , s x , n are assigned respectively to v ar iab les z , p , M , s x , n and to ListAns elements 1 through 5. T woSample Z T est: Executes 2-sample Z -test calculation. Syntax: T woSample Z T est " ƫ 1 condition", S 1 , S 2 , M 1 ,[...]

  • Page 245

    8-34 • Ƶ 2 Te s t ChiGOFT est: Executes a chi-square goodness of fit test. Syntax: ChiGOFT est List 1, List 2, df , List 3 (List 1 is the Obser v ed list, List 2 is the Expected list, and List 3 is the CNTRB list.) Output V alues: Ƶ 2 , p , df are assigned respectively to the v ar iab les with the same names and to ListAns elements 1 through 3.[...]

  • Page 246

    8-35 I Per f orming Financial Calculations in a Program ( Not avai lab le o n the f x- 7 4 00 G II ) • Setup Commands • Date Mode Setting f or Financial Calculations DateMode365 ....... 365 da ys DateMode360 ....... 360 da ys • P ayment P eriod Setting PmtBgn................. Star t of per iod PmtEnd................. End of per iod • Bond C[...]

  • Page 247

    8-36 Syntax: Cmpd_PMT( n , I %, PV , FV , P/Y , C/Y) Cmpd_FV : Retur ns the final input/output amount or total principal and interest. Syntax: Cmpd_FV( n , I %, PV , PMT , P/Y , C/Y) • Cash Flow (In vestment Appraisal) Cash_NPV : Retur ns the net present v alue. Syntax: Cash_NPV( I %, Csh) Cash_IRR: Retur ns the internal rate of retur n. Syntax: [...]

  • Page 248

    8-37 • Day/Date Calculations Days_Pr d: Retur ns the number of da ys from a specified d1 to specified d2. Syntax: Da ys_Prd(MM1, DD1, YYYY1, MM2, DD2, YYYY2) • Bond Calculations Bond_PRC: Retur ns in list f or m bond prices based on specified conditions. Syntax: Bond_PRC(MM1, DD1, YYYY1, MM2, DD2, YYYY2, RD V , CPN, YLD) = {PRC , INT , CST} Bon[...]

  • Page 249

    8-38 RAN G a 0 Sel_a 0 a 1 Sel_a 1 * key Level 1 Level 2 Level 3 Command LIST List List _ L m M List m Mat ( Dim Dim_ Fill Fill ( Seq Seq ( Min Min ( Max Max ( Mean Mean ( Med Median ( Aug Augm ent( Sum Sum_ Pro d Prod_ Cuml Cuml_ % Percent_ List _ MA T M at Mat_ M m L Mat m List ( Det Det _ Tr n Tr n _ Aug Augm ent( Iden Identit y_ Dim Dim_ Fill F[...]

  • Page 250

    8-39 NUM Abs Abs_ Int Int _ Fr ac Frac _ Rnd Rnd Intg Intg _ RndFi RndFix ( GCD GCD ( LCM LCM ( MOD MOD ( MOD • E MOD_ Ex p ( ANGL o o r r g g o ’’ ’ Pol ( Pol( Rec ( Rec (  DMS  DMS ESYM m m μμ n n p p f f k k M M G G T T P P E E PIC T Sto Sto Pict_ Rcl RclPic t_ FMEM fn fn LOG IC A nd _An d_ Or _Or_ Not Not _ Xor Xor_ CA PT Rcl Rc[...]

  • Page 251

    8-40  ) (P R GM) k e y Level 1 Level 2 Level 3 Command COM If If_ Then The n_ Else Else _ I-En d IfEnd For For_ To _To_ Step _Step_ Next Nex t Whle Whi le_ WEnd Whi leEnd Do Do Lp-W LpWh ile_ CTL Prog Prog_ Rtrn Ret urn Brk Break Stop Sto p JUMP Lbl Lbl_ Goto Got o_   Isz Isz _ Dsz Dsz _ Menu Menu_ ? ? << CLR T ext ClrT ex t Grph Clr[...]

  • Page 252

    8-41 ST YL } SketchN orma l _ — Sketch Thick _ ····· SketchBroken_ ······ SketchDot_ B ASE Program  (M EN U) k e y Level 1 Level 2 Level 3 Command d~o d d h h b b o o LOG N eg Neg_ Not Not _ and and or or xor xor xnor xnor DISP  Dec  Dec  Hex  Hex  Bin  Bin  Oct  Oct  ) (P R GM) k e y Level 1 Level 2 Level[...]

  • Page 253

    8-42 8. Pr ogram Librar y • Be sure to check how many b ytes of unused memor y are remaining bef ore attempting to perf or m any progr amming. Progr am Na me Prime Factori zat ion Description This program contin ually divides a natural number by f actors until all its prime factors are produced. Purpose This program accepts input of natur al numb[...]

  • Page 254

    8-43 Pr ogram Name Ellipse Description This program displa ys a number tab le of the follo wing values based on input of the f oci of an ellipse, the sum of the distance betw een the loci and f oci, and the pitch (step size) of X. Y1: Coordinate v alues of upper half of ellipse Y2: Coordinate v alues of lower half of ellipse Y3: Distances between r[...]

  • Page 255

    9-1 Chapter 9 Spreadsheet The Spreadsheet application provides y ou with powerful, tak e-along-anywhere spreadsheet capabilities. All of the operations in this section are perf or med in the S • SHT mode. Impor tant! • The fx-7400G II and fx-9750G II are not equipped with the S • SHT mode. 1. Spreadsheet Basics and the Function Menu Selecting[...]

  • Page 256

    9-2 •{ DEL } ... Displa ys the f ollowing DEL (delete) submenu. •{ RO W } / { COL } / { ALL } •{ INS } ... Displa ys the f ollowing INS (inser t) submenu. •{ RO W } / { COL } •{ CLR } ... Clears the content from a selected range of cells. •{ GRPH } ... Displa ys the f ollowing GRPH menu. (Same as in the S TAT mode.) •{ GPH1 } / { GPH2[...]

  • Page 257

    9-3 S T o open a file 1. Press  (FILE)  (OPEN). 2. On the file list that appears , use D and A to select the file you w ant and then press U . S A uto Save In the S • SHT mode, A uto Sav e sav es the currently open file automatically whenev er you edit it. This means you do not need to perf or m any man ual sav e operation. S T o save a fil[...]

  • Page 258

    9-4 I Using the Cell Cursor The cell cursor shows the cell that is selected on a spreadsheet. The highlighted cell is the one that is currently selected by the cell cursor . Cell cursor Edit bo x When a single cell is selected by the cell cursor , the contents of that cell are displa yed in the edit bo x. The cell contents can be edited in the edit[...]

  • Page 259

    9-5 S Using the JUMP Command to Mo ve the Cell Cursor T o mo ve the cell cursor to here: Do this: A par ticular cell 1. Press  (EDIT)  (JUMP)  (GO). 2. On the dialog bo x that appears, enter the name of the cell (A1 to Z999) to which you w ant to jump . 3. Press U . Line 1 of the current column Press  (EDIT)  (JUMP)  (T OP l ). Co[...]

  • Page 260

    9-6 S T o edit cell data 1. Mo v e the cell cursor to the cell whose contents y ou want to edit. 2. Press  (EDIT)  (CELL). • Cell contents in the edit bo x will change from align left to align right. A te xt cursor will appear in the edit bo x so you can edit its contents . 3. Use C and B to mov e the cursor around the contents of the cell,[...]

  • Page 261

    9-7 Item Description Expr Input the function e xpression f ( x ) for generating the n umber sequence. Example: ?  (X) V @ U (X 2 + 1) V ar Input the v ariable name used in the function e xpression input for Expr . Example: ?  (X) U (X) Star t Input the star ting value (X 1 ) of the v alue to be substituted for the v ar iab le specified by [...]

  • Page 262

    9-8 I Inputting a Form ula into a Cell F or the sake of e xample, let’ s tr y making a tab le that contains data based on the formula <PRICE> s <QU ANTITY> = <T O T AL>. T o do this , we would put <PRICE> v alues in column A, <QU ANITY> v alues in column B , and calculation f or mulas (lik e = A1 s B1, = A2 s B2, and[...]

  • Page 263

    9-9 S T o input a cell reference name using direct input Mov e the cell cursor to cell B1 and then perform the f ollowing oper ation.    ?T (A) @D U S T o input a cell reference name using the GRAB command Mov e the cell cursor to cell B1 and then perform the f ollowing oper ation.     (GRAB) B  (SET) D U ?[...]

  • Page 264

    9-10 I Copying and P asting Cell Contents Y ou can cop y the contents of one or more cells and paste them into another location. Once you perf or m the cop y operation, y ou can cop y the contents to multiple locations, if y ou want. S T o copy and paste spreadsheet data 1. Select the cell(s) y ou want to cop y . • See “T o select cells” (pag[...]

  • Page 265

    9-11 Cutting the B1:C1 range of cells that includes the f or mula =B1+5 and pasting it into B2:C2. The f or mula pasted into C2 is changed to =B2+5 in order to maintain the relationship with the cell to the left, which was also par t of the pasted r ange. S T o cut and paste spreadsheet data 1. Select the cell(s) y ou want to cut. • See “T o se[...]

  • Page 266

    9-12 S T o input the same form ula into a range of cells 1. Select the range of cells into which y ou want to input the same f or mula. • In this e xample we will assume the B1:B3 is selected. See “T o select a range of cells” (page 9-5). 2 Press  (EDIT)  ( E )  (FILL). 3. On the Fill screen that appears , enter the f or mula y ou wa[...]

  • Page 267

    9-13 1. Select one or more cells inside the ro w(s) or column(s) you w ant to delete. • If you w ant to delete lines 2 through 4, for e xample, y ou could select A2:B4, C2:C4, or any other range of cells that includes the lines to be deleted. • If you w ant to delete columns A and B, f or example , you could select A1:B1, A2:B4, etc. 2. Press ?[...]

  • Page 268

    9-14 3. Using Special S • SHT Mode Commands The S • SHT mode has a number of special commands lik e CellSum(, which retur ns the sum of a range of cells , and CellIf(, which specifies branching conditions . These special commands can be used inside of f or mulas. I Special S • SHT Mode Command List “Input K ey Operation” operations can be[...]

  • Page 269

    9-15 CellProd( (Product of Cells) Retur ns the product of the data in a specified r ange of cells. Input Ke y Operation:  (CEL)  (Prod) Syntax: CellProd(star t cell:end cell[)] Example: =CellProd(B3:B5) Retur ns the product of the data in cell r ange B3:B5. I S • SHT Mode Command Example This e xample inputs the special S • SHT mode formu[...]

  • Page 270

    9-16 I Example of Statistical Graph Operations (GRPH Menu) Input the f ollowing data and dra w a statistical gr aph (scatter plot in this e xample). 0.5, 1.2, 2.4, 4.0, 5.2 ( x -axis data) –2.1, 0.3, 1.5, 2.0, 2.4 ( y -axis data) S T o input data and draw a statistical graph (scatter plot) 1. Input the statistical calculation data into the spread[...]

  • Page 271

    9-17 • The number of columns y ou select in step 1 will deter mine what inf or mation is input automatically on the general gr aph settings screen. If y ou select this number of columns: This information will be input automatically: 1 XCellRange 2 XCellRange, YCellRange 3 XCellRange, YCellRange , F requency • The f ollowing describes each of th[...]

  • Page 272

    9-18 S T o perform paired-v ariable statistical calculations and regression calculations 1. Input the abo v e x -data into cells A1:A5 of the spreadsheet and the y -data into cells B2:B5, and then select the range of the cells where y ou input the data (A1: B5). 2. Press  ( E )  (CALC) to displa y the CALC menu, and then press  (2V AR). ?[...]

  • Page 273

    9-19 • The f ollowing describes each of the setting items for this screen. Item Description 1V ar XCell 1V ar F req The cell range data specified here is used f or variable x and F requency values when perf or ming single-v ar iab le statistical calculations. 2V ar XCell 2V ar YCell 2V ar F req The cell range data specified here is used f or vari[...]

  • Page 274

    9-20 5. S • SHT Mode Memory Y ou can use the calculator’ s diff erent types of memor y (v ar iab les, list memor y , file memor y , matrix memor y) to store data, and recall data from a memor y into the spreadsheet. I Saving Spreadsheet Data to a Memory The f ollowing table sho ws an ov er vie w of the store operations for each type of memory .[...]

  • Page 275

    9-21 4. Input the List number (1 to 26) of the list memory where you w ant to store the data and then press U . • P erf or ming the ne xt step will ov erwrite any data currently stored under the list memor y number y ou specified here with the data in the range of cells specified by “CellRange”. 5. Press  (EXE) or the U ke y to store the d[...]

  • Page 276

    10-1 Chapter 10 eActivity Y ou can use the eActivity mode to input data into an eActivity file. Y ou can input te xt and numeric e xpressions, and also paste data (lik e graphs , tables , etc.) from the calculator’ s built- in applications as “str ips”. eActivity files can be used by a teacher , f or e xample, to create math problems or e x e[...]

  • Page 277

    10-2 The f ollowing e xplains the type of data y ou can input and edit in an eActivity file. T e xt line ................. A text line can be used to input char acters, numbers, and e xpressions as te xt. Calculation line...... Use the calculation line to enter an ex ecutable calculation f or mula. The result will appear in the f ollowing line. Cal[...]

  • Page 278

    10-3 •{ INS } ... Displa ys the f ollowing inser t submenu, f or inser ting a new line abov e the line that is currently selected or where the cursor is located. •{ TEXT } ... Inser ts a te xt line. •{ CALC } ... Inser ts a calculation line. •{ ST OP } ... Inser ts a calculation stop line. •{  MA T } ... Displa ys the Matr ix Editor (p[...]

  • Page 279

    10-4 S T o open a file Use D and A to highlight the file you w ant to open, and then press  (OPEN) or U *. * If an error occurs, delete capture memor y and clipboard data, or tr ansf er the data to your computer . S T o delete a file 1. Use D and A to highlight the file you w ant to delete, and then press  (DEL). • This will displa y a “D[...]

  • Page 280

    10-5 I Inputting into a T e xt Line Use a te xt line to input alphanumer ic char acters, e xpressions, etc. S Inputting character s and expressions as text 1. Mo v e the cursor to a te xt line. • While the cursor is in a te xt line, “TEXT” will be displa yed f or the F3 function menu item. This indicates that te xt input is enabled. T e xt li[...]

  • Page 281

    10-6 I Inputting into a Calculation Line Inputting a calculation e xpression into an eActivity calculation line and pressing U will display the calculation result in the f ollowing line. Such a calculation line can be used in the same wa y as the RUN • MA T mode (page 1-3). A calculation line and its result mak e up one set. • Note that the wor[...]

  • Page 282

    10-7 S Matrix Calculations Using the Matrix Editor Selecting {  MA T} on the function menu displa ys the Matrix Editor . Matrix Editor operations and matrix calculations in the eActivity mode are the fundamentally identical to those in the RUN • MA T mode. For details about the Matrix Editor and matrix calculation operations , see “Matr ix C[...]

  • Page 283

    10-8 Strip Data T ype T able Data T ype Strip Name RUN • MA T mode calculation data (When the RU N • MA T mode is called from an eActivity , it star ts up in the natural input mode.) Run (Math) GRAPH mode graph screen data Graph GRAPH mode graph relation list screen data Graph Editor T ABLE mode table relation list screen data T ab le Editor CO[...]

  • Page 284

    10-9 2. Press  (STRP). • This will displa y a dialog box with a list if inser tab le strips. For inf or mation about the displa y names and data types that appear on this dialog bo x, see the “Strip Data T ype T able” (page 10-8). 3. Use A and D to select the strip that corresponds to the type of data you want to insert. • In this e xamp[...]

  • Page 285

    10-10 S Notes Strips “Notes” is a special eActivity text editor that comes in handy when y ou want to write long te xt e xplanations on the wor kspace screen. Y ou can call up the Notes screen from a Notes strip on the workspace screen. Input and editing operations on the Notes screen are identical to those you use f or an eActivity te xt line.[...]

  • Page 286

    10-11 u T o switc h from an application screen called up fr om a strip to another application screen Press ! , ( , ). On the dialog box that appears, use c and f to select the name of an application and then press w . u T o display the strip memory usage screen 1. Use c and f to select the strip whose memory usage screen you want to view. 2. Press [...]

  • Page 287

    10-12 u T o replace the existing file with the ne w version Press 1 (FILE) 1 (SAVE) to save the currently open file. u T o save a file under a ne w name 1. On the eActivity workspace screen, press 1 (FILE) 2 (SV-AS). • This will display a file name input screen. 2. Input up to 8 characters for the file name and then press w . • If a file alread[...]

  • Page 288

    10-13 T o do this: Press this key: Overwrite the existing eActivity file with the edited version and return to the file list 1 (Yes) Return to the file list without saving the file you are currently editing 6 (No) Return to the eActivity workspace screen A[...]

  • Page 289

    11-1 Chapter 11 Memory Manager fx-7400G II /fx-9750G II These models support the following data operations: data display, search, and delete. Impor tant! fx-7400G II /fx-9750G II calculators are not equipped with storage memory or an SD card slot. Because of this, the storage memory and SD card memory operations described below are not supported. f[...]

  • Page 290

    11-2 I Memory Information Screen The memor y inf or mation screen shows inf or mation about one memory at a time: the calculator’ s main memor y or storage memory , or the SD card memor y . • Since an fx-7400G II or fx-9750G II calculator has only main memor y , main memor y contents only appear on the main memor y inf or mation screen. • Wit[...]

  • Page 291

    11-3 The f ollowing data can be check ed. Main Memory Data Name Contents ALPHA MEM Alpha letter v ariables <CAPTURE> Capture memor y group CAPT n ( n = 1 to 20) Capture memory CONICS* 1 Conics setting data D YNA MEM* 1 Dynamic Graph memor y EQU A TION Equation data FINANCIAL* 1 Financial data <F-MEM> Function memor y group F-MEM n ( n =[...]

  • Page 292

    11-4 Storage Memory , SD Card * 1 Data Name Contents *.g1m or .g2m file names Data items listed in the Main Memor y tab le that has been copied to storage memory or an SD card. The names of these files hav e the e xtension “.g1m” or “.g2m”. eActivity data names eActivity data stored in storage memor y or on an SD card. Add-in software names[...]

  • Page 293

    11-5 3. Input up to eight characters f or the name you w ant to give to the f older . • Only the f ollowing characters are suppor ted: A through Z, {, }, ’, ~, 0 through 9 Inputting any in valid character will cause an “In v alid Name” error . • An “Inv alid Name” also occurs if the name you input is already being used b y an existing[...]

  • Page 294

    11-6 I Copying Data Impor tant! • Data cop y is not suppor ted on an fx-7400G II or fx-9750G II calculator . S T o copy from main memory to storage memory Note • The f ollowing procedure sav es the selected data into a single file. Y ou assign a name to the file, which is stored in stor age memor y . 1. On the main memory data information scree[...]

  • Page 295

    11-7 I Err or Chec ks During Data Copy The f ollowing error checks are perf or med while a data cop y operation is being e xecuted. Low battery chec k The calculator perf or ms low battery check bef ore star ting the data copy operation. If the batter y is at Le vel 1, a lo w batter y error occurs and the copy oper ation is not performed. A vailabl[...]

  • Page 296

    11-8 I Deleting Files S T o delete a main memor y file 1. Displa y the main memor y inf or mation screen. • See “Memor y Information Screen” on page 11-2. 2. Select the file(s) y ou want to delete. Y ou can select multiple files, if y ou want. 3. Press  (DEL). • Press  (Y es) to delete the file. • Press  (No) to cancel the delete[...]

  • Page 297

    11-9 • The first file name that begins with the letter “R” appears highlighted on displa y . • Y ou can input up to eight characters f or the ke yword. S T o search f or a file in the storage memor y Example T o sear ch f or all files in the storage memor y whose names begin with the letter “S” 1. Displa y the storage memor y inf or mat[...]

  • Page 298

    11-10 2. Press  (SA VE). This displa ys the sav e location selection screen (fx-9860G II SD only). • @ ... storage memor y • A ... SD card 3. Press @ or A (fx-9860G II SD only). This displa ys a folder selection screen. 4. Use D and A to select the f older where you want to sa ve the data. 5. Press U to star t the backup . • Backup data is[...]

  • Page 299

    11-11 4. Use D and A to select a f older . 5. Press U .* 1 • A message appears to confir m whether or not y ou really want to restore the bac ked up data. * 1 The message “No Data” will appear if there is no backup data stored in memory . Pressing ) will retur n the screen in step 1. Press  (Y es) to restore the data and delete any data cu[...]

  • Page 300

    12-1 Chapter 12 System Manager Use the System Manager to view system inf or mation and mak e system settings. 1. Using the System Manager F rom the Main Menu, enter the SYSTEM mode and displa y the follo wing menu items. •  ( ) ... {display contr ast adjustment} •  ( ) ... {Auto P ower Off time setting} •  (LANG) ... {system language[...]

  • Page 301

    12-2 S T o specify the backlight key (f or models equipped with a backlight onl y) 1. While the initial SYSTEM mode screen is displa yed, press  ( ) to displa y the P ower Proper ties setting screen. 2. Use D and A to select “Backlight Setting”. •  (LIGHT) ... {Backlight on/off:  * (LIGHT)} •  (ANY) ... {Backlight on: Any k ey} [...]

  • Page 302

    12-3 • Press  (MSG) to retur n to the Message Language selection screen. 5. Press ) or ) (QUIT) to return to the initial SYSTEM mode screen. I V ersion List Use VER (v ersion) to displa y the operating system version. Y ou can also register the user name you w ant. S T o display version inf ormation 1. On the initial SYSTEM mode screen, pre[...]

  • Page 303

    12-4 Pressing  ( E ) on the abov e screen displays the Reset Screen 2 sho wn below . •  (M&S) ... {main memor y data and storage memor y data clear}* •  (ALL) ... {all memor y clear}* •  (SD) ... {SD card format} (fx-9860G II SD only) * Not included on the fx-7400G II /fx-9750G II . The follo wing table sho ws the functions of[...]

  • Page 304

    13-1 Chapter 13 Data Comm unications This chapter tells you everything you need to know to transfer programs between two CASIO Power Graphic calculators connected using the cable that is equipped as a standard accessory. 1. Connecting T w o Units The following procedure describes how to connect two units with the connecting cable that comes equippe[...]

  • Page 305

    13-2 * 1 With the fx-9860G II SD, fx-9860G II, and fx-9860G AU PLUS, use the Program-Link Software and USB cable that comes with the calculator. For the fx-9750G II and fx-7400G II , you will need to purchase the separately available FA-124. 3. P erf orming a Data Comm unication Operation From the Main Menu, enter the LINK mode. The following data [...]

  • Page 306

    13-3 •  (ScreenRecv) ... {mode selection for sending calculator screen images to PC using fx- 9860G Manager PLUS Screen Receiv er function} T o transf er data between a PC and calculator memory , press  . Use ke ys  through  to select the appropr iate mode f or sending the calculator screen image to an e xter nal de vice. F or details[...]

  • Page 307

    13-4 Only items that contain data appear on the data item selection screen. If there are too many data items to fit on a single screen, the list scrolls when you mo ve the cursor to the bottom line of the items on the screen. S T o execute a send operation After selecting the data items to send, press  (TRAN). A message appears to confir m that [...]

  • Page 308

    13-5 1. On the receiv er’ s data communication main menu, press  (W AKE). This displa ys the W akeup setting screen. •{ On } ... {tur ns W akeup on} •{ Off } ... {tur ns W akeup off} 2. Press  (On). This tur ns on W akeup and returns of the data communication main menu. 3. T ur n off the receiver . 4. Connect the receiv er to the sender[...]

  • Page 309

    13-6 Data Item Contents Overwrite Chec k * 1 RECURSION* Recursion data No SETUP Setup data No ST A T Stat result data No <STRING> String memor y group STR n String memor y (1 to 20) data No SYSTEM OS and data shared by applications (clipboard, repla y , histor y , etc.) No <S-SHEET> Spreadsheet group Spreadsheet data names Spreadsheet d[...]

  • Page 310

    13-7 k Exchanging Data with another Model Calculator In this section, the term “OS 2.0 calculators” refers to the following models. • fx-9860G II SD, fx-9860G II , fx-9860G AU PLUS, fx-9750G II , fx-7400G II • fx-9860G SD, fx-9860G and fx-9860G AU whose operating systems have been updated to Version 2.0 An OS 2.0 calculator supports data ex[...]

  • Page 311

    13-8 - Clipboard and history data (Including the “SYSTEM” data item.) - e • ACT mode data* 1 - S • SHT mode data* 1 * 1 Can be transferred from an fx-9860G II SD, fx-9860G II , fx-9860G AU PLUS, fx-9860G SD (OS 2.0), fx-9860G (OS 2.0) or fx-9860G AU (OS 2.0) calculator. • Program data is transferred as-is. However, any command in a transf[...]

  • Page 312

    13-9 Complex Number in data - Matrix data includes an element containing a complex number* 1 - List data includes an element containing a complex number - EQU A mode simultaneous equation input data has a complex number coefficient - EQU A mode simultaneous equation calculation result includes a complex number solution In valid Data Number - List d[...]

  • Page 313

    13-10 The following data is not sent from the OS 2.0 calculator or is disregarded when received by the fx-7400G series calculator • Any alpha memory variable (A to Z, r ,  ) with a complex number assigned • Answer Memory • Capture memory data • Clipboard, replay, and history data (Including the “SYSTEM” data item.) • CONICS mode da[...]

  • Page 314

    13-11 • The following numeric expressions input in the Math input/output mode are converted to Linear input/output mode before being sent. - Graph expressions registered in the D YNA mode and RECUR mode* 1 - Solve expressions registered in the EQU A mode - Graph expressions registered in the GRAPH mode and T ABLE mode * 1 * 1 Not receivable by an[...]

  • Page 315

    13-12 •  (Recv)* ... {mode selection for sending calculator screen images to PC using fx-9860G Manager PLUS Screen Receiv er function (auto screen image send tur ned on)} * Not included on the fx-7400G II . I Select Connection Mode Screen (All models e xcept fx-7400G II ) Y ou also can perf or m the same mode selection oper ations as the Captu[...]

  • Page 316

    13-13 I A uto Screen Image Send to an OHP Unit (Not av ailable on the fx-7400G II ) The f ollowing procedure sends the screen of this calculator to an OHP unit at fix ed inter v als. 1. Use the USB cab le to connect the calculator to the OHP unit. • Connecting the USB cable to the calculator will cause the “Select Connection Mode” dialog bo x[...]

  • Page 317

    13-14 S T o project calculator screen contents from a projector 1. Use the USB cab le that comes with the calculator to connect to the projector (or YP-100 unit). • Connecting the USB cable to the calculator will cause the “Select Connection Mode” dialog bo x to appear . 2. Press  (Projector). S Precautions when Connecting • An hourglass[...]

  • Page 318

    14-1 Chapter 14 Using SD Car ds (fx-9860G ɉ SD onl y) Y ou can use SD cards to store calculator data. Y ou can cop y main memor y and storage memory data to and from an SD card. Impor tant! • Alwa ys use an SD memor y card. Operation is not guaranteed when another type of memor y card is used. • Be sure to read the user documentation that come[...]

  • Page 319

    14-2 S T o inser t an SD card 1. Orient the SD card so its back is f acing upwards (in the same direction as the calculator ke yboard). 2. Carefully inser t the SD card into the calculator’ s SD card slot. Impor tant! • Ne ver inser t anything other than SD cards into the SD card slot. Doing so can damage the calculator . • Should water or an[...]

  • Page 320

    14-3 2. Formatting an SD Car d • Use the procedure under “Reset” (page 12-3) to f or mat an SD card. 3. SD Car d Precautions during Use • SD card problems can normally be corrected by ref or matting the card. Howe v er , it is alwa ys a good idea to take along more than one SD card to a void data stor age prob lems. • Card f or matting (i[...]

  • Page 321

    A -1 Appendix 1. Err or Message T able Message Meaning Countermeasure Syntax ERROR • Illegal syntax • Attempt to input an illegal command • Press ) to display the error and make necessary corrections. Ma ERROR • Calculation result exceeds the displa y range. • Calculation is outside the input range of a function. • Mathematical error (d[...]

  • Page 322

    A -2 Message Meaning Countermeasure Argument ERROR • Incorrect argument specification f or a command that requires an argument. • Correct the argument. Dimension ERROR • Illegal dimension used dur ing matrix or list calculations. • Check the matrix or list dimension. Range ERROR  Input of an improper V -Window v alue.  V -Window r ang[...]

  • Page 323

    A -3 Message Meaning Countermeasure Can’t Solv e! Adjust initial v alue or bounds. Then tr y again • A Solve calculation could not obtain a solution within the specified range . • Change the specified range. • Correct the input expression. No V ar iab le  No v ariable specified within a gr aph function being used f or Dynamic Graph.  [...]

  • Page 324

    A -4 Message Meaning Countermeasure Time Out • A Solve calculation or integ ration calculation was unab le to satisfy conv ergence conditions. • If you are perf or ming a Solv e calculation, tr y changing to the initial def ault estimated value. • If you are perf or ming an integration calculation, try changing to a larger tol v alue. Circula[...]

  • Page 325

    A -5 2. Input Ranges Function Input range for real number solutions Internal digits Precision Notes sin x cos x tan x (DEG) | x | < 9 s (10 9 )° (RAD) | x | < 5 s 10 7 P rad (GRA) | x | < 1 s 10 10 grad 15 digits As a rule, precision is p 1 at the 10th digit.* How e ver , for tan x : | x | x 90(2 n +1): DEG | x | xP /2(2 n +1): RAD | x | [...]

  • Page 326

    A -6 Function Input range for real number solutions Internal digits Precision Notes ° ’ ” k} ° ’ ” | a |, b , c < 1 s 10 100 0  b , c 15 digits As a rule, precision is p 1 at the 10th digit.* | x | < 1 s 10 100 Se xagesimal display: | x | < 1 s 10 7 ^( x y ) x > 0: –1 s 10 100 < y log x < 100 x = 0 : y > 0 x <[...]

  • Page 327

    E-CON2 Application[...]

  • Page 328

    20051101 All of the explanations provided here assume that you are already familiar with the operating precautions, terminology , and operational procedures of the calculator and the EA-200.[...]

  • Page 329

    20051101 1-1 E-CON2 Overview 1 E-CON2 Overview • From the Main Menu, select E-CON2 to enter the E-CON2 Mode. • The “E-CON2 Mode” provides the functions listed below for simple and more ef ficient data sampling using the CASIO EA-200. • 1 (SET) ........ Displays a screen for setting up the EA-200. • 2 (MEM) ....... Displays a screen for [...]

  • Page 330

    20051101 2 Using the Setup Wizard This section explains how to use the Setup Wizard to configure the EA-200 setup quickly and easily simply by replying to questions as they appear . If you need more control over specific sampling parameters, you should consider using the Advanced Setup procedure on page 3-1. k Setup Wizard Parameters Setup Wizard l[...]

  • Page 331

    20051101 u T o configure an EA-200 setup using Setup W izard Before getting started... • Before starting the procedure below , make sure you first decide if you want to start sampling immediately using the setup you configure with Setup Wizard, or if you want to store the setup for later sampling. • See sections 6-1, 7-1, and 8-1 of this manual[...]

  • Page 332

    20051101 2-3 Using the Setup Wizard • If the “Input T otal Sampling Interval” screen appears, skip to step 6. 5. Select the options for the sensor you specified in step 4. Use the f and c cursor keys to move the highlighting to the option you want to select, and then press w . • If the “Input T otal Sampling Interval” screen appears, ad[...]

  • Page 333

    20051101 8. Use number keys b through e to specify the unit for the value you specified in step 6. • This displays a confirmation screen like the one shown below . 2-4 Using the Setup Wizard 7. After inputting total sampling time value you want, press w . This displays the “Select Unit” screen. 10. Press number keys described below to specify[...]

  • Page 334

    20051101 2-5 Using the Setup Wizard k Using Setup Wizard to Configure Settings for FFT (Frequency Characteristics) Data Sampling When you perform sound sampling executed the EA-200’s built-in microphone (by specifying [CASIO] - [Microphone] as the sensor), Setup Wizard will provide you with three options: [Sound wave], [Sound wave & FFT], and[...]

  • Page 335

    20051101 2-6 Using the Setup Wizard k Using Setup Wizard to Configure a PhotoGate Setup Connection of a V ernier PhotoGate requires configuration of setup parameters that are slightly dif ferent from parameters for other types of sensors. u u u u u T o configure a setup for PhotoGate alone 1. Perform the first two steps of the procedure under “T [...]

  • Page 336

    20051101 2-7 Using the Setup Wizard 5. Input an integer in the range of 1 to 255 to specify the number of samples. 6. Perform step 10 under “T o configure an EA-200 setup using Setup Wizard” on page 2-2 to finalize the procedure. u u u u u T o configure a setup for PhotoGate and Smart Pulley 1. Perform the first two steps of the procedure under[...]

  • Page 337

    20051101 2-8 Using the Setup Wizard k Outputting the W aveform of a Function through the Speaker Normally , the Setup Wizard helps you configure setups for sensors connected to the EA-200. If you select [CASIO] - [Speaker] - [y=f(x)] on the “Select Sensor” screen, however , it configures the EA-200 to output the sound that corresponds to a func[...]

  • Page 338

    20051101 2-9 Using the Setup Wizard 7. Press 6 (DRA W) to graph the function. • This graphs the function and displays a vertical cursor line as shown below . Use the graph to specify the range that you want to output to the speaker . 8. Use the d and e cursor keys to move the cursor to the start point of the output, and then press w to register i[...]

  • Page 339

    20051101 2-10 Using the Setup Wizard 14. Perform one of the following operations, depending on what you want to do. T o change the output frequency and try again: Press 1 (Y es) to return to the “Output Frequency” dialog box. Next, repeat the above steps from step 10. T o change the output range of the waveform graph and try again: Press 6 (No)[...]

  • Page 340

    20051101 3 Using Advanced Setup Advanced Setup provides you with total control over a number of parameters that you can adjust to configure the EA-200 setup that suits your particular needs. The procedures in this section provide the general steps you should perform when using Advanced Setup to configure an EA-200 setup, and to returns setup settin[...]

  • Page 341

    20051101 3-2 Using Advanced Setup • d (T rigger) ...... Displays a screen for configuring sampling start (trigger) conditions. See “T rigger Setup” on page 3-8 for more information. • e (Graph) ....... Displays a screen for configuring graph settings. See “Graph Setup” on page 3-13 for more information. • Y ou can return the settings [...]

  • Page 342

    20051101 3-3 Using Advanced Setup k Channel Setup The Channel Setup screen shows the sensors that are currently assigned to each channel (CH1, CH2, CH3, SONIC, Mic). u u u u u T o configure Channel Setup settings 1. While the Advanced Setup menu (page 3-1) is on the display , press b (Channel). • This displays the Channel Setup screen. Currently [...]

  • Page 343

    20051101 3-4 Using Advanced Setup • From the menu that appears after you select “Photogate” as the sensor , select [Gate] or [Pulley]. [Gate] ............... Select this option when using the PhotoGate sensor alone. [Pulley] ............. Select this option when using the PhotoGate sensor along with a smart pulley . 4 (None) ......... Select [...]

  • Page 344

    20051101 3-5 Using Advanced Setup k Sample Setup The Sample Setup screen lets you configure a number of settings that control sampling. u u u u u T o configure Sample Setup settings 1. While the Advanced Setup menu (page 3-1) is on the display , press c (Sample). • This displays the Sample Setup screen, with the “Mode” line highlighted, which[...]

  • Page 345

    20051101 3-6 Using Advanced Setup 4. T o change the number of samples setting, move the highlighting to “Number”. Next, press 1 to display a dialog box for specifying the number of samples. • Y ou can specify a value in the range of 10 to 30,000. • The total sampling time shown at the bottom of the dialog box is calculated by multiply- ing [...]

  • Page 346

    20051101 3-7 Using Advanced Setup 6. After all the settings are the way you want, press w . • This returns to the Advanced Setup menu. Note • Whenever the current Channel Setup (page 3-3) and T rigger Setup (page 3-8) settings become incompatible due to a change in Sample Setup settings, these settings revert automatically to their initial defa[...]

  • Page 347

    20051101 3-8 Using Advanced Setup The following table describes each of the six available trigger sources. Note The trigger sources you can select depends on the sampling mode selected with the Sample Setup (page 3-5). For this sampling mode: The following trigger source(s) can be selected: Realtime [EXE] key , Count Down Fast [EXE] k ey , Count Do[...]

  • Page 348

    20051101 3-9 Using Advanced Setup • The trigger source is always “[EXE] key” when the sampling mode is “Extended”, and “CH1” when the sampling mode is “Clock” or “Period”. u u u u u T o configure T rigger Setup settings 1. While the Advanced Setup menu (page 3-1) is on the display , press d (T rigger). • This displays the T [...]

  • Page 349

    20051101 If this is the trigger source: Do this next: [EXE] key Press w to finalize T rigger Setup and return to the Advanced Setup menu. Count Down Specify the countdown start time. See “T o specify the countdown start time” below . CH1 Specify the trigger threshold value and trigger edge direction. See “T o specify the trigger threshold val[...]

  • Page 350

    20051101 3-1 1 Using Advanced Setup u u u u u T o specify the trigger threshold value and trigger edge type Perform the following steps when “Fast”, “Normal”, or “Clock” is specified as the sampling mode (page 3-5). 1. Move the highlighting to “Threshold”. 2. Press 1 (EDIT) to display a dialog box for specifying the trigger threshol[...]

  • Page 351

    20051101 3-12 Using Advanced Setup u u u u u T o configure PhotoGate trigger start and end settings Perform the following steps when CH1 is selected as a Photogate trigger source. 1. Move the highlighting to “Start to”. 2. Press one of the function keys described below . 3. Move the highlighting to “End Gate”. 4. Press one of the function k[...]

  • Page 352

    20051101 3-13 Using Advanced Setup T o specify this graph source data name display setting: Press this key: Display source data name 1 (On) Hide source data name 2 (Of f) k Graph Setup Use the Graph Setup screen to configure settings for the graph produced after sampling is complete. Y ou use the Sample Setup settings (page 3-5) to turn graphing on[...]

  • Page 353

    20051101 3-14 Using Advanced Setup T o specify this real-time scrolling setting: Pr ess this key: Real-time scrolling on 1 (On) Real-time scrolling off 2 (Of f) 5. T o change the real-time scroll setting, use the f and c cursor keys to move the highlighting to “RealScroll”. Next, press one of the function keys described below . 6. Press w to fi[...]

  • Page 354

    20051101 4 Using a Custom Probe Y ou can use the procedures in this section to configure a custom probe for use with the EA- 200. The term “custom probe” means any sensor other than the CASIO or V ernier sensors specified as standard for the E-CON2 Mode. k Configuring a Custom Probe Setup T o configure a custom probe setup, you must input value[...]

  • Page 355

    20051101 4-2 Using a Custom Probe 6. Use the function keys described below to configure the custom probe setup. • T o change the setting of an item, first use the f and c cursor keys to move the highlighting to the item. Next, use the function keys to select the setting you want. (1) Slope Press 1 (EDIT) to input the slope for the linear interpol[...]

  • Page 356

    20051101 k Auto Calibrating a Custom Probe Auto calibration automatically corrects the slope and intercept values of a custom probe setup based on two actual samples. Important! • Before performing the procedure below , you should prepare two conditions whose measurement values are known. • When inputting reference value in step 5 of the proced[...]

  • Page 357

    20051101 4-4 Using a Custom Probe 4. After the sampled value stabilizes, hold down w for a few seconds. • This will register the first sampled value and display it on the screen. At this time the cursor will appear at the bottom of the display , ready for input of a reference value. 5. Use the key pad to input the reference value for the first sa[...]

  • Page 358

    20051101 8. Press w , and then input a memory number from 1 to 99. • This saves the custom probe setup and returns to the custom probe list. k Zero Adjusting a Custom Probe This procedure zero adjusts a custom probe and sets its intercept value based on an actual sample using the applicable custom probe. u T o zero adjust a custom probe 1. Connec[...]

  • Page 359

    20051101 4. At the point your want to perform zero adjustment (the point that the displayed value is the appropriate zero adjust value), press w . • This will return to the custom probe setup screen. • The E-CON2 will set the intercept value automatically based on the sampled value. The automatically configured value will appear on the custom p[...]

  • Page 360

    20051101 5-1 Using the MUL TIMETER Mode 5 Using the MUL TIMETER Mode Y ou can use the Channel Setup screen (page 3-3) to configure a channel so that EA-200 MUL TIMETER Mode sampling is triggered by a calculator operation. u u u u u T o use the MUL TIMETER Mode 1. Connect the calculator and EA-200, and connect the sensors you want to the applicable [...]

  • Page 361

    20051101 6-1 Using Setup Memory 6 Using Setup Memory Creating EA-200 setup data using the Setup Wizard or Advanced Setup causes the data to be stored in the “current setup memory area”. The current contents of the current setup memory area are overwritten whenever you create other setup data. Y ou can use setup memory to save the current setup [...]

  • Page 362

    20051101 2. If you are starting from the final Setup Wizard screen, press c (Save Setup-MEM). If you are starting from another screen, press 2 (SA VE). • This displays the screen for inputting the setup name. 6-2 Using Setup Memory 3. Input up to 18 characters for the setup name. 4. Press w and then input a memory number (1 to 99). • If you sta[...]

  • Page 363

    20051101 u T o recall a setup and use it for sampling Be sure to perform the following steps before starting sampling with the EA-200. 1. Connect the calculator to the EA-200. 2. Turn on EA-200 power . 3. In accordance with the setup you plan to use, connect the proper sensor to the appropriate EA-200 channel. 4. Prepare the item whose data is to b[...]

  • Page 364

    20051101 u T o delete setup data 1. On the E-CON2 main menu (page 1-1), press 2 (MEM) to display the setup memory list. 2. Use the f and c cursor keys to highlight the name of the setup you want. 3. Press 4 (DEL). 4. In response to the confirmation message that appears, press 1 (Y es) to delete the setup. • T o clear the confirmation message with[...]

  • Page 365

    20051101 7 Using Program Converter Program Converter converts an EA-200 setup you configured using Setup Wizard or Advanced Setup to a program that can run on the calculator . Y ou can also use Program Converter to convert a setup to a CFX-9850 Series/fx-7400 Series-compatible program.* 1 * 2 * 1 See the documentation that came with your scientific[...]

  • Page 366

    20051101 2. Enter up to eight characters for the program name. Note Using the program converter initial default settings will create a program like the one below . • Associated Scientific Calculator: fx-9860 Series • Associated Data Analyzer: EA-200 • Calibration: None • Password: None If you want to use these settings the way they are with[...]

  • Page 367

    20051101 5. If you plan to use a custom probe connected to CH1 of the Data Analyzer , specify whether calibration or zero adjust should be performed. Perform one of the following key operations to configure the desired setting. • The operation you specify will appear in line “F3:” of the program converter screen. 6. T o password protect the p[...]

  • Page 368

    20051101 k Converting a CFX-9850 Series Program to a fx-9860 Series Compatible Program T o use an EA-200 control program created on the CFX-9850 Series calculator (for use on the CFX-9850) on the E-CON2, you need to convert the program to an fx-9860 program. Conversion can be performed using the program converter . 4. Use f and c to move the highli[...]

  • Page 369

    20051101 5. Enter up to eight characters for the program name. • If you want to password protect the program, perform steps 6 and 7 under “T o convert a setup to a program” after inputting the program name. 6. Press w to start conversion of the program. • The message “Complete!” appears when conversion is complete. T o clear the message[...]

  • Page 370

    20051101 8 Starting a Sampling Operation The section describes how to use a setup configured using the E-CON2 Mode to start an EA-200 sampling operation. k Before getting started... Be sure to perform the following steps before starting sampling with the EA-200. 1. Connect the calculator to the EA-200. 2. T urn on EA-200 power . 3. In accordance wi[...]

  • Page 371

    20051101 u T o start sampling 1. Start the sampling operation by performing one of the function key operations described below . ✔ If the final Setup W izard screen (page 2-4) is on the display , press b (Start Setup). ✔ If the Advanced Setup menu (page 3-1) is on the display , press 1 (STR T). ✔ If the E-CON2 main menu (page 1-1) is on the d[...]

  • Page 372

    20051101 8-3 Starting a Sampling Operation Mode Real-time Fast Normal Sound Extended Period Clock 1. EA-200 Setup 2. Start Standby 3. Sampling 4. Graphing Star ts Sampling • The screen shown below appears when CH1, SONIC , or Mic is used as the trigger . Graph screen does not show all sampled v alues, but only a partial previe w . Pressing 1 adv [...]

  • Page 373

    20051101 9-1 Using Sample Data Memory 9 Using Sample Data Memory Performing an EA-200 sampling operation from the E-CON2 Mode causes sampled results to be stored in the “current data area” of E-CON2 memory . Separate data is saved for each channel, and the data for a particular channel in the current data area is called that channel’ s “cur[...]

  • Page 374

    20051101 4. Enter up to 18 characters for the data file name, and then press w . • This displays a dialog box for inputting a memory number . 5. Enter a memory number in the range of 1 to 99, and then press w . • This saves the sample data at the location specified by the memory number you input. • If you specify a memory number that is alrea[...]

  • Page 375

    20051101 u u u u u T o rename an existing sample data file Note • Y ou cannot use this procedure to rename a current data file name. 1. On the E-CON2 main menu (page 1-1), press 5 (GRPH). • This displays the Graph Mode screen. 2. Press 2 (DA T A). • This displays the Sampling Data List screen. 3. Use the f and c cursor keys to move the highli[...]

  • Page 376

    20051101 10-1 Using the Graph Analysis T ools to Graph Data 10 Using the Graph Analysis T ools to Graph Data Graph Analysis tools make it possible to analyze graphs drawn from sampled data. k Accessing Graph Analysis T ools Y ou can access Graph Analysis tools using either of the two methods described below . u u u u u Accessing Graph Analysis tool[...]

  • Page 377

    20051101 k Selecting an Analysis Mode and Drawing a Graph This section contains a detailed procedure that covers all steps from selecting an analysis mode to drawing a graph. Note • Step 4 through step 6 are not essential and may be skipped, if you want. Skipping any step automatically applies the initial default values for its settings. • If y[...]

  • Page 378

    20051101 b. Repeat step a to turn each of the graphs listed on the Graph Mode screen on or off. 6. Select the graph style you want to use. a. On the Graph Mode screen, use the f and c cursor keys to move the highlighting to the graph (Gph1, Gph2, etc.) whose style you want to specify , and then press 4 (STYL). This will cause the function menu to c[...]

  • Page 379

    20051101 10-4 Using the Graph Analysis T ools to Graph Data Graph Screen b. Use the function keys to specify the graph style you want. c. Repeat a and b to specify the style for each of the graphs on the Graph Mode screen. 7. On the Graph Mode screen, press 6 (DRA W) or w . • This draws the graph(s) in accordance with the settings you configured [...]

  • Page 380

    20051101 1 1-1 Graph Analysis T ool Graph Screen Operations 11 Graph Analysis T ool Graph Screen Operations This section explains the various operations you can perform on the graph screen after drawing a graph. Y ou can perform these operations on a graph screen produced by a sampling operation, or by the operation described under “Selecting an [...]

  • Page 381

    20051101 k Scrolling the Graph Screen Press the cursor keys while the graph screen is on the display scrolls the graph left, right, up, or down. Note • The cursor keys perform different operations besides scrolling while a trace or graph operation is in progress. T o perform a graph screen scroll operation in this case, press J to cancel the trac[...]

  • Page 382

    20051101 1 1-3 Graph Analysis T ool Graph Screen Operations k Using T race T race displays a crosshair pointer on the displayed graph along with the coordinates of the current cursor position. Y ou can use the cursor keys to move the pointer along the graph. Y ou can also use trace to obtain the periodic frequency value for a particular range, and [...]

  • Page 383

    20051101 4. Press w to assign the period and periodic frequency values to Alpha-Memory variables. • This displays a dialog box for specifying variable names for [Period] and [Frequency] values. • The initial default variable name settings are “S” for the period and “H” for the periodic frequency . T o change to another variable name, us[...]

  • Page 384

    20051101 3. Press w . • This causes the magnifying glass to disappear and enters the zoom mode. • The cursor keys perform the following operations in the zoom mode. 4. T o exit the zoom mode, press J . k T ransforming Sampled Data to List Data Use the following procedure to transform the sampled data in a specific range of a graph into list dat[...]

  • Page 385

    20051101 5. After everything is the way you want, press w . • This saves the lists and the message “Complete!” appears. Press w to return to the graph screen. • For details about using list data, see the manual that comes with the fx-9860G SD/fx- 9860G calculator . Note • Pressing 1 (All) in place of 2 (SEL) in step 2 converts the entire [...]

  • Page 386

    20051101 4. Move the trace pointer to the end point of the range for which you want to perform Fourier series expansion, and then press w . • This displays a dialog box for specifying the start degree of the Fourier series. 5. Input a value in the range of 1 to 99, and then press w . • This displays a dialog box for inputting the degree of the [...]

  • Page 387

    20051101 k Performing Regression Y ou can use the procedure below to perform regression for a range specified using the trace pointer . All of the following regression types are supported: Linear , Med-Med, Quadratic, Cubic, Quartic, Logarithmic, Exponential, Power , Sine, and Logistic. For details about these regression types, see page 6-3-5 throu[...]

  • Page 388

    20051101 5. Press 6 (DRA W). • This draws a quadratic regression graph and overlays it over the original graph. • T o delete the overlaid quadratic regression graph, press !4 (SKTCH) and then 1 (Cls). k Overlaying a Y=f(x) Graph on a Sampled Result Graph Use the following procedure when you want to overlay a Y=f(x) graph on the sampled result g[...]

  • Page 389

    20051101 4. After the graph function list settings are configured the way you want, press 6 (DRAW). • This overlays graphs of all the functions for which graphing is turned on, over the graph that was originally on the graph screen. 1 1-10 Graph Analysis T ool Graph Screen Operations 2. Press 1 (ZOOM). • This displays only one of the graphs tha[...]

  • Page 390

    20051101 1 1-1 1 Graph Analysis T ool Graph Screen Operations 3. Use the f and c cursor keys to cycle through the graphs until the one you want is displayed, and then press w . • This enters the zoom mode and causes all of the graphs to reappear , along with a magnifying glass cursor ( ) in the center of the screen. 4. Use the cursor keys to move[...]

  • Page 391

    20051101 2. Move the trace pointer to the start point of the range you want to output from the speaker , and then press w . 1 1-12 Graph Analysis T ool Graph Screen Operations / 5. T o exit the move mode, press J . k Outputting a Specific Range of a Graph from the Speaker Use the following procedure to output a specific range of a sound data wavefo[...]

  • Page 392

    20051101 4. Input a percent value for the output frequency value you want. • The output frequency specification is a percent value. T o output the original sound as-is, specify 100%. T o raise the original sound by one octave, input a value of 200%. T o lower the original sound by one octave, input a value of 50%. 5. After inputting an output fre[...]

  • Page 393

    20051101 1 1-14 Graph Analysis T ool Graph Screen Operations k Configuring V iew Window Parameters Pressing !3 (V -Window) while the graph screen is on the display displays a View Window function key menu along the bottom of the display . Press the function key that corresponds to the V iew Window parameter you want to configure. 20070101 T o exit [...]

  • Page 394

    20051101 12-1 Calling E-CON2 Functions from an eActivity 12 Calling E-CON2 Functions from an eActivity Y ou can call E-CON2 functions from an eActivity by including an “Econ strip” in the eActivity file. The following describes each of the four available Econ strips. u Econ SetupWizard strip This strip calls the E-CON2 Setup Wizard. The Econ Se[...]

  • Page 395

    20051101 k Inserting an Econ Strip into an eActivity File The following procedure assumes that the eActivity file into which you want to insert the Econ strip is already open. For information about creating a new file and other basic eActivity operations, see “Basic eActivity File Operation” (page 10-1-5) in the manual that comes with the fx-98[...]

  • Page 396

    20051101 6. Press w to assign the title to the strip. • This will highlight the strip. • Y ou can execute the strip here by pressing w . For details about operations that are required when you execute a strip, see “Calling an E-CON2 Function from an Econ Strip” below . k Calling an E-CON2 Function from an Econ Strip This section explains op[...]

  • Page 397

    20051101 3. Perform the procedure under “T o configure an EA-200 setup using Setup Wizard” (page 2-2) from step 3 to set up the EA-200 and execute sampling. Note • In the case of the Econ SetupWizard strip, only the “1: Start Setup” is available on the “Complete!” dialog box. Other options are not available. 4. T o return to the eActi[...]

  • Page 398

    20051101 u u u u u T o execute sampling from an Econ Sampling strip 1. On the eActivity workspace screen, use the f and c keys to move the highlighting to the Econ Sampling strip. 2. Press w . • This displays a sampling start confirmation screen. 12-5 Calling E-CON2 Functions from an eActivity • If this is the first time you are using this Econ[...]

  • Page 399

    20051101 8. Press w . • This will set up the EA-200 in accordance with the setup data registered in the Econ Sampling strip. The message “Start sampling?” appears on the screen after EA-200 set up is complete. 9. Press w to start sampling. • The screens that appear while sampling is in progress and after sampling is complete depend on setup[...]

  • Page 400

    20051101 u u u u u Econ Strip Memory Capacity Precautions • The memory capacity of each Econ strip is 25 KB. An error will occur if you perform an operation that causes this capacity to be exceeded. Particular care is required when handling a large number of samples, which can cause memory capacity to be exceeded. • Always make sure that FFT Gr[...]

  • Page 401

    Manuf acturer : CASIO COMPUTER CO ., L TD . 6-2, Hon-machi 1-chome Shibuy a-ku, T okyo 151-8543, J apan Responsible within the European Union: CASIO EUROPE GmbH Casio-Platz 1 22848 Norderstedt, Germany This mark applies in EU countries only.[...]

  • Page 402

    CASIO COMPUTER CO ., L TD . 6-2, Hon-machi 1-chome Shibuya-ku, T okyo 151-8543, Japan One or more of the following patents may be used in the pr oduct. U.S.Pats. 5,166,897 5,210,708 5,535,317 5,539,867 SA 1 1 0 2-B[...]