Sharp EL-9900 Bedienungsanleitung

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Richtige Gebrauchsanleitung

Die Vorschriften verpflichten den Verkäufer zur Übertragung der Gebrauchsanleitung Sharp EL-9900 an den Erwerber, zusammen mit der Ware. Eine fehlende Anleitung oder falsche Informationen, die dem Verbraucher übertragen werden, bilden eine Grundlage für eine Reklamation aufgrund Unstimmigkeit des Geräts mit dem Vertrag. Rechtsmäßig lässt man das Anfügen einer Gebrauchsanleitung in anderer Form als Papierform zu, was letztens sehr oft genutzt wird, indem man eine grafische oder elektronische Anleitung von Sharp EL-9900, sowie Anleitungsvideos für Nutzer beifügt. Die Bedingung ist, dass ihre Form leserlich und verständlich ist.

Was ist eine Gebrauchsanleitung?

Das Wort kommt vom lateinischen „instructio”, d.h. ordnen. Demnach kann man in der Anleitung Sharp EL-9900 die Beschreibung der Etappen der Vorgehensweisen finden. Das Ziel der Anleitung ist die Belehrung, Vereinfachung des Starts, der Nutzung des Geräts oder auch der Ausführung bestimmter Tätigkeiten. Die Anleitung ist eine Sammlung von Informationen über ein Gegenstand/eine Dienstleistung, ein Hinweis.

Leider widmen nicht viele Nutzer ihre Zeit der Gebrauchsanleitung Sharp EL-9900. Eine gute Gebrauchsanleitung erlaubt nicht nur eine Reihe zusätzlicher Funktionen des gekauften Geräts kennenzulernen, sondern hilft dabei viele Fehler zu vermeiden.

Was sollte also eine ideale Gebrauchsanleitung beinhalten?

Die Gebrauchsanleitung Sharp EL-9900 sollte vor allem folgendes enthalten:
- Informationen über technische Daten des Geräts Sharp EL-9900
- Den Namen des Produzenten und das Produktionsjahr des Geräts Sharp EL-9900
- Grundsätze der Bedienung, Regulierung und Wartung des Geräts Sharp EL-9900
- Sicherheitszeichen und Zertifikate, die die Übereinstimmung mit entsprechenden Normen bestätigen

Warum lesen wir keine Gebrauchsanleitungen?

Der Grund dafür ist die fehlende Zeit und die Sicherheit, was die bestimmten Funktionen der gekauften Geräte angeht. Leider ist das Anschließen und Starten von Sharp EL-9900 zu wenig. Eine Anleitung beinhaltet eine Reihe von Hinweisen bezüglich bestimmter Funktionen, Sicherheitsgrundsätze, Wartungsarten (sogar das, welche Mittel man benutzen sollte), eventueller Fehler von Sharp EL-9900 und Lösungsarten für Probleme, die während der Nutzung auftreten könnten. Immerhin kann man in der Gebrauchsanleitung die Kontaktnummer zum Service Sharp finden, wenn die vorgeschlagenen Lösungen nicht wirksam sind. Aktuell erfreuen sich Anleitungen in Form von interessanten Animationen oder Videoanleitungen an Popularität, die den Nutzer besser ansprechen als eine Broschüre. Diese Art von Anleitung gibt garantiert, dass der Nutzer sich das ganze Video anschaut, ohne die spezifizierten und komplizierten technischen Beschreibungen von Sharp EL-9900 zu überspringen, wie es bei der Papierform passiert.

Warum sollte man Gebrauchsanleitungen lesen?

In der Gebrauchsanleitung finden wir vor allem die Antwort über den Bau sowie die Möglichkeiten des Geräts Sharp EL-9900, über die Nutzung bestimmter Accessoires und eine Reihe von Informationen, die erlauben, jegliche Funktionen und Bequemlichkeiten zu nutzen.

Nach dem gelungenen Kauf des Geräts, sollte man einige Zeit für das Kennenlernen jedes Teils der Anleitung von Sharp EL-9900 widmen. Aktuell sind sie genau vorbereitet oder übersetzt, damit sie nicht nur verständlich für die Nutzer sind, aber auch ihre grundliegende Hilfs-Informations-Funktion erfüllen.

Inhaltsverzeichnis der Gebrauchsanleitungen

  • Seite 1

    EL-9900 MODEL EL-9900 GRAPHING CALCULA TOR GRAPHING CALCULA TOR OPERA TION MANU AL SHARP CORPORA TION 02CGK(TINSE0511EHZZ) PRINTED IN CHINA/IMPRIMÉ EN CHINE/IMPRESO EN CHINA ® ®[...]

  • Seite 2

    Declaration of Conf ormity Graphing Calculator: EL-9900 This device complies with P art 15 of the FCC Rules. Operation is subject to the f ollowing two conditions: (1) This device ma y not cause harmful interference, and (2) this de vice must accept any interf erence received, including interf erence that may cause undesired oper ation. Responsible[...]

  • Seite 3

    i Intr oduction This graphing calculator can handle man y types of mathematical formulas and e xpressions f or you. It is powerful enough to process v er y complex f or mulas used in rock et science, b ut yet so compact that it fits in your coat poc ket. The main features of this graphing calculator are as f ollows: •R ev ersible K eyboard to sui[...]

  • Seite 4

    ii Introduction Rever sible K e yboard This calculator comes equipped with a re versible k eyboard. Re verse the ke yboard to select Basic Mode or Advanced Mode . Basic Mode A green backg round color ke yboard with basic mathematical functions. This mode is suitable f or learning mathematics in lower grades .[...]

  • Seite 5

    iii Introduction Adv anced Mode (Default mode) A blue bac kground color ke yboard with advanced mathematical functions . This mode is suitable f or learning or studying mathematics in higher grades.[...]

  • Seite 6

    iv Contents Caring for Y our Calculator ............................................................................................... 1 Chapter 1 Getting Started .............................................................................................................. 2 Bef ore Use .............................................................[...]

  • Seite 7

    v Contents Chapter 4 Basic Graphing Features — Basic Ke yboard ......................................................... 50 1. Tr y it! ........................................................................................................................ 50 2. Explanations of V ar ious Graphing K eys ............................................[...]

  • Seite 8

    vi Contents Chapter 9 List Features ............................................................................................................ 131 1. Tr y it! ..................................................................................................................... 1 31 2. Creating a list ...............................................[...]

  • Seite 9

    vii Contents Chapter 13 Programming Features ........................................................................................... 202 1. Tr y it! ..................................................................................................................... 2 02 2. Programming Hints .....................................................[...]

  • Seite 10

    viii Contents 3. Complex n umber calculation ........................................................................ 245 7. CA T ALOG F eature ................................................................................................ 246 8. List of Menu/Sub-menu Items ..........................................................................[...]

  • Seite 11

    1 Caring for Y our Calculator Caring f or Y our Calculator • Do not carr y the calculator around in y our back pock et, as it ma y break when you sit down. The display is made of glass and is par ticularly fragile. •K eep the calculator aw ay from e xtreme heat such as on a car dashboard or near a heater , and av oid e xposing it to exces- sive[...]

  • Seite 12

    2 Chapter 1 Getting Star ted Bef ore Use 1. Open the battery cover located on the back of the calculator . Pull down the notch, then lift the battery cov er up to remov e it. 2. Inser t the batteries, as indicated. Mak e sure that the batteries are inser ted in the correct directions. 3. Pull off the insulation sheet from the memor y backup batter [...]

  • Seite 13

    3 Chapter 1: Getting Started Since the display contr ast may v ar y with the ambient temperature and/or remaining battery power , you ma y want to adjust the contrast accordingly . Here’ s how: 1. Press @ , then p . 2. Adjust the contrast by using the + and - keys. + : increases the contrast - : decreases the contrast 3. When done, press C to e x[...]

  • Seite 14

    4 Chapter 1: Getting Started[...]

  • Seite 15

    5 Chapter 1: Getting Started 1 Display screen: Displa ys up to 132 pixels wide b y 64 pixels tall of g raphs and texts . 2 Po wer ON/OFF key: Tu r ns calculator ON. T o turn off the calculator , press @ , then o . 3 Ke y operation keys: These ke ys are used to change the ke y functions. @ : Changes the cursor to “2”, and the ne xt keystrok e en[...]

  • Seite 16

    6 Chapter 1: Getting Started Basic ke yboard Advanced k eyboard Basic Operation keys E : Used when e xecuting calculations or specifying commands . C / q : Clear/Quit key B : Backspace delete k ey D : Delete ke y i :T oggle input mode between insert and overwrite (in one-line edit mode). ; : Allows y ou to set up the basic behavior of this calculat[...]

  • Seite 17

    7 Chapter 1: Getting Started Menu keys (Function of these keys ma y vary between basic and adv anced mode.) M : Enter the Math menu with additional mathematical functions. S : Enter the statistics menu. P : Enter the programming men u. z : Enter the menu f or calculator specific variables . Advanced Mode specific k eys V : Converts hexadecimal, dec[...]

  • Seite 18

    8 Chapter 1: Getting Started Basic K ey Operations Since this calculator has more than one function assigned to each k ey , y ou will need to follo w a fe w steps to get the function you need. Example • Press “as is” to get the function and number printed on each k ey . •T o access secondary function pr inted abov e each ke y in yellow , pr[...]

  • Seite 19

    9 Chapter 1: Getting Started Changing the K eyboar d This calculator is designed with a re versible k eyboard, which b y utilizing it will not only change the appearance, b ut will also change the internal functions and configurations of the calculator as well. 1. Press @ o to turn off the calculator’ s power . 2. Open the battery compar tment co[...]

  • Seite 20

    10 Chapter 1: Getting Started Here are the major ingredients f or 18 doughnuts: 1 4 cup warm water 3 4 cup warm milk 1 3 cup sugar 4 cups all-pur pose flour 2 eggs 3 tablespoons b utter Based on these v alues, solve the f ollowing problems using the calculator . Question If you make 60 doughn uts according to the abov e recipe, how many cups of w a[...]

  • Seite 21

    11 Chapter 1: Getting Started 3. Press 3 b 4 ' . 4. Press b 18 ' . 5. Press E . 1. Press # to enter the calculation screen. 2. Press C to clear the display . Now we ha ve f ound 1 24 of a cup of warm milk is required per one doughnut, how man y cups are required for 60 doughn uts? If you w ant to use the answ er of the previous calculatio[...]

  • Seite 22

    12 Chapter 1: Getting Started On the Basic Mode, y ou can toggle between decimal v alues, mix ed values, and improper fractions using > , / , and < , respectiv ely . 1. Press > E . 2. Press < E . 3. Press / E . 1. Press @ ; . 2. Select F ANSWER and press 1 . 3. Press C . Now the ans wer mode is set to the decimal ans wer mode and 2.5 is[...]

  • Seite 23

    13 Chapter 2 Operating the Graphing Calculator Basic / Ad vanced K eyboar d This calculator comes equipped with a rev ersible k eyboard to support two different ke yboard configurations: Basic and Advanced k eyboard. By rev ersing the ke yboard, the calculator s witches its set of functions and behaviors as well as its visual aspect. The Basic ke y[...]

  • Seite 24

    14 Chapter 2: Operating the Graphing Calculator 1. Entering number s Use the number k eys ( 0 ~ 9 ), decimal point ke y ( . ), and negativ e number ke y ( _ ) to enter numbers into the calculator . T o clear the screen entr y , press C . Example T ype 10.23456789 onto the Calculation screen. 1. Enter the Calculation screen, then clear the screen en[...]

  • Seite 25

    15 Chapter 2: Operating the Graphing Calculator 2. P erforming standar d math calculations By utilizing the + - | and = ke ys, you can perf orm the standard arithmetic calculations of addition, subtraction, multiplication, and division. Press E to perf or m each calculation. Example Obtain the ans wer to “6 × 5 + 3 – 2”. # C 6 | 5 + 3 - 2 E [...]

  • Seite 26

    16 Chapter 2: Operating the Graphing Calculator Example Enter “ 65536 4 × 8 3 ” in the Calculation screen. Jump the cursor to the beginning of the expression (just f or this ex ercise), then press E to calculate. 1. Press # , then C to clear the display . 2. Enter 4 for the root’ s depth, then press @ _ . The root figure is entered, with the[...]

  • Seite 27

    17 Chapter 2: Operating the Graphing Calculator Editing Entries * See page 26 f or details. The calculator has the f ollowing two editing modes: equation mode, and one line mode. Y ou can select one from the G EDIT OR menu of the SETUP menu. Equation editor One line editor Use ; ' { } to mov e the cursor around, and use the D B C ke ys to edit[...]

  • Seite 28

    18 Chapter 2: Operating the Graphing Calculator Example T ype 4500000, then remove 500. # C 4 5 0 0 0 0 0 ; ; ; B B B Tips: Y ou can jump the cursor to the beginning or the end of line b y using the @ and ; ' ke ys. T o learn about how to use the @ ke y and its functions, ref er to the section “Second Function K ey” of this chapter . Secon[...]

  • Seite 29

    19 Chapter 2: Operating the Graphing Calculator ALPHA Ke y Use A to enter an alphabet character . With the Basic keyboard, all 26 alphabet characters from “A” up to “Z”, and space can be typed; the Advanced k eyboard has all 26 characters accessib le, as well as “ θ ”, “=”, “ : ”, and space. All functions associated with A are [...]

  • Seite 30

    20 Chapter 2: Operating the Graphing Calculator Math Function K eys Mathematical functions can be called up quickly with the Math Function k eys . The Math Function ke y sets for both the Basic and Adv anced K eyboards are designed to suit the needs of calculations at each le vel. Basic ke yboard Advanced k eyboard Q Reduces a fraction / Conv er ts[...]

  • Seite 31

    21 Chapter 2: Operating the Graphing Calculator c Enters an arc cosine function at the cursor t Enters a tangent function at the cursor t Enters an arctangent function at the cursor l Enters a logarithm function at the cursor 0 Enters “10 to the x th power”, then sets the cursor at the “ x ” I Enters a natural logarithm function at the curs[...]

  • Seite 32

    22 Chapter 2: Operating the Graphing Calculator Note: If a number precedes d b a and _ , then the number will be set as the first entry of the figure. Else, the first entr y is blank and the cursor flashes . Examples 2 d 3 } 4 ' d ; 2 ' 3 } 4 ' + Enters a “root” figure at the cursor , Enters “ , ” (a comma) at the cursor R St[...]

  • Seite 33

    23 Chapter 2: Operating the Graphing Calculator MA TH, ST A T , and PRGM Menu K eys By using the M , S , and P k eys, you can access man y menu items f or comple x calculation tasks. The appendix “List of Menu/Sub-menu Items” shows the contents of each, with detailed descriptions of each sub-menu item. Note that the contents of menu items diff [...]

  • Seite 34

    24 Chapter 2: Operating the Graphing Calculator 5. T ype 3 4 . 5 6 7 , 0 ) , and press E . SETUP Menu Use this menu to v erify basic configurations, such as to define the calculator’ s editing pref erences, and scientific and mathematical base units. To chec k the current configuration of the calculator , press @ , then ; . By entering menu items[...]

  • Seite 35

    25 Chapter 2: Operating the Graphing Calculator 4. Press # C to clear the Calculation screen, type 1 0 0 0 y , then E . SETUP Menu Items DRG: F or trigonometric calculations and coordinate conv ersions, va r ious angle units can be selected: Deg Angle values to be set in deg rees (default f or Basic mode) Rad Angle values to be set in r adians (def[...]

  • Seite 36

    26 Chapter 2: Operating the Graphing Calculator T AB: Sets the number of digits be yond the decimal point (0 through 9). The def ault is “9”. COORD: Sets the calculator to v ar ious graph coordinate systems . Rect Rectangular coordinates (def ault) P aram Par ametric equation coordinates (for Adv anced mode only) P olar P olar coordinates (for [...]

  • Seite 37

    27 Chapter 2: Operating the Graphing Calculator Notes: Immediately after changing the EDIT OR, the calculator will return to the calculation screen and the f ollowing data will be cleared. • ENTR Y memor y • Equations stored in the graph equation windo w ( Y ) • Equations temporally stored in the SOL VER window ( @ ' ) * Resetting to the[...]

  • Seite 38

    28 Chapter 2: Operating the Graphing Calculator 7) Multiplications between a number and a function in #6 (3cos20, etc. “cos20” is ev aluated first) 8) P er mutations and combinations (nPr , nCr) 9) × , ÷ 10 ) + , – 11 ) and 12 )o r, xor xnor 13 ) Equalities and nonequalities (<, ≤ , >, ≥ , ≠ , =, → deg, → dms , etc.) Example[...]

  • Seite 39

    29 Chapter 2: Operating the Graphing Calculator Resetting the Calculator Use the reset when a malfunction occurs, to delete all data, or to set all mode v alues to the def ault settings. The resetting can be done b y either pressing the reset s witch located in the battery compar tment, or by selecting the reset in the OPTION men u. Resetting the c[...]

  • Seite 40

    30 Chapter 2: Operating the Graphing Calculator • The message on the right may occasionally appear . In this case, repeat the procedure from step 1 to pre vent loss of data. 2. Selecting the RESET within the OPTION men u 1. Press @ , then p . The OPTION menu appears. 2. While in the OPTION menu, press E to select E RESET ; the RESET sub- menu ite[...]

  • Seite 41

    31 Chapter 3 Basic Calculations — Basic Keyboar d In this chapter , we e xplore more features of this calculator using the Basic K eyboard. F eatures such as fraction to decimal con v ersion and the quotient-remainder key , as w ell as basic arithmetic calculations, will be cov ered in this chapter . Note: To tr y the e xamples in the chapter , i[...]

  • Seite 42

    32 Chapter 3: Basic Calculations — Basic Keyboard CONCEPT 1. Enter a math e xpression, then perform the calculation. 2. Sav e a number into a variab le, then recall the value later . PROCEDURE 1. First, press # , then C to clear any screen entries. 2. T ype 186282 = 7.5, then press E . The circumference of the earth is thus obtained. 3. Store the[...]

  • Seite 43

    33 Chapter 3: Basic Calculations — Basic Keyboard 2. Arithmetic Ke ys There are various k eys f or ar ithmetic calculations. Use the + - | = , _ , ( and ) k eys to perf or m basic arithmetic calculations. Press E to solv e an equation. E Executes an e xpression. Example • Calculate 1 + 2. # C 1 + 2 E An expression is a mathematical statement th[...]

  • Seite 44

    34 Chapter 3: Basic Calculations — Basic Keyboard | Enters a “ × ” sign for m ultiplication. Example • Multiply 12 by 34. 1 2 | 3 4 E = Enters a “ ÷ ” sign for division. Example • Divide 54 by 32. 5 4 = 3 2 E The multiplication sign can be left out when: a. It is placed in front of an open parenthesis. b. It is follo wed b y a varia[...]

  • Seite 45

    35 Chapter 3: Basic Calculations — Basic Keyboard ( Enters an open parenthesis. Use with “)” as a pair , or the calcula- tion will result in an error . ) Enters a closing parenthesis; a parenthesis left open will result in an error . Example • Calculate (4 + 6) ÷ 5. ( 4 + 6 ) = 5 E Note: Functions, such as “round(”, automatically inclu[...]

  • Seite 46

    36 Chapter 3: Basic Calculations — Basic Keyboard Specifying a common factor Simplify the fraction using the specified common f actor . Example 1 b 12 ' + 5 b 12 E Q 6 E (Manually specify 6, the Greatest Com- mon F actor of 12 and 6, to simplify the fraction.) Note: If the wrong number is specified f or a common factor , an error will occur [...]

  • Seite 47

    37 Chapter 3: Basic Calculations — Basic Keyboard i P erforms an integer division, and returns a quotient and a remainder . Example • Get a quotient and a remain- der of 50 ÷ 3. 50 i 3 E * Quotient value is set to Ans memory and remainder is not stored. y Squares the preceding number . Example • Obtain the ans wer to 12 2 . (= 144) 12 y E No[...]

  • Seite 48

    38 Chapter 3: Basic Calculations — Basic Keyboard b Enters a fraction, setting the preceding number as its n umerator . * If the calculator is set to one-line mode, then “ ¬ ” will be entered instead. For e xample, “2 ¬ 5” indicates “ 2 5 ”. Example • Calculate 2 5 + 3 4 . 2 b 5 ' + b 3 ' 4 ' E a Enters an e xponent[...]

  • Seite 49

    39 Chapter 3: Basic Calculations — Basic Keyboard x Enters an “x”, an unkno wn variable . Use this key when working with graph equations . Refer to Chapter 4 “Basic Graphing F eatures” to lear n how to use this f eature. To access the second function of a ke y (printed above the k eys in y ellow), press and release @ , then press the k ey[...]

  • Seite 50

    40 Chapter 3: Basic Calculations — Basic Keyboard r Recalls a v ar iable . Example • Set C = 8. 8 R A C E Recall the value of C . @ r A C E z Accesses the V ARS menu. Refer to chapters 4 and 6 to learn how to use each item in this menu. { } Enter braces to group n umbers as a list. b Recalls the pre vious answer . Use this ke y to incor porate [...]

  • Seite 51

    41 Chapter 3: Basic Calculations — Basic Keyboard e Recalls the pre vious entr y . This is useful when y ou want to modify the previous entry , rather than reenter the whole expression o ver . Example • Calculate 4 × 6. 4 | 6 E Next, calculate 4 × 8. @ e B 8 E Note: Executed e xpressions are stored in a temporar y memor y in the ex ecuted ord[...]

  • Seite 52

    42 Chapter 3: Basic Calculations — Basic Keyboard 4. Calculations Using MA TH Menu Items The MA TH menu contains functions used f or more elaborate math concepts, such as trigonometr y , logarithms, probability , and math unit/format conv ersions. The MA TH menu items ma y be incor porated into y our expressions. Note: The def ault angle measurem[...]

  • Seite 53

    43 Chapter 3: Basic Calculations — Basic Keyboard 3 tan Enters a tangent function to be used in a trigonometr ic calcula- tion. Example • Calculate tangent 45°. M A 3 4 5 E 4 log Enters a “log” function f or a logarithmic calculation Example • Calculate log 100. M A 4 1 0 0 E 5 10 x Enters a base of 10, setting the cursor at the e xponen[...]

  • Seite 54

    44 Chapter 3: Basic Calculations — Basic Keyboard 2 round( r ound( v alue [ , digit number of decimals] ) Returns the rounded value of the term in parentheses. A rounding point can be specified. *A real number , a list, matr ix, v ar iable , or equation can be used as values . Example • Round off 1.2459 to the nearest hundredth. (= 1.25) M B 2 [...]

  • Seite 55

    45 Chapter 3: Basic Calculations — Basic Keyboard 6 min( min( list ) Finds and returns the minimum value within a list of numbers . T o define a list of more than two numbers , group the numbers with brac kets ( @ { and @ } ), with each element separated by a comma. Example • Find the smallest v alue among 4, 5, and - 9. M B 6 @ { 4 , 5 , _ 9 @[...]

  • Seite 56

    46 Chapter 3: Basic Calculations — Basic Keyboard 0 remain natural number remain natural number Returns the remainder of a division. Example • Obtain the remainder when 123 is divided by 5. 1 2 3 M B 0 5 E CP R O B Use the PROB sub-men u items for probability calculations. 1 random random [(number of trial)] Returns a random decimal number betw[...]

  • Seite 57

    47 Chapter 3: Basic Calculations — Basic Keyboard 3 rndCoin rndCoin [(number of trial)] Returns a specified number of random integers to simulate a coin flip: 0 (head) or 1 (tail). The size of the list (i.e., how man y times the vir tual coin is thrown) can be specified. (The same as r ndInt (0, 1, number of times)) Example • Make the calculato[...]

  • Seite 58

    48 Chapter 3: Basic Calculations — Basic Keyboard 6 nCr Returns the total number of combinations for selecting “r” item out of “n” items . n C r = n! r!(n – r)! Example •H ow many diff erent groups of 7 students can be f or med with 15 students? 1 5 M C 6 7 E 7 ! Retur ns a f actor ial. Example • Calculate 6 × 5 × 4 × 3 × 2 × 1[...]

  • Seite 59

    49 Chapter 3: Basic Calculations — Basic Keyboard 2 → dms Ta k es a number in decimal form (in degrees), and conv er ts it into a se xagesimal number . T o enter a number in se xagesimal form, use items in the “ANGLE” sub-men u, described in the next subsection of this Chapter . Example • Show 40.0268 degrees in degrees , minutes, and sec[...]

  • Seite 60

    50 Chapter 4 Basic Graphing Featur es — Basic Keyboar d This chapter takes the kno wledge you hav e gained in Chapter 3 se veral steps further . Note: To tr y the examples in this chapter , it is required that the Basic K eyboard is already set up by the user . T o learn how to set up the Basic K eyboard, read “Changing the K eyboard” in Chap[...]

  • Seite 61

    51 Chapter 4: Basic Graphing Featur es — Basic Keyboard CONCEPT 1. By using two linear gr aphs, the approximate crossing point can be found. 2. The exact crossing point can be f ound with the T ABLE function. PROCEDURE 1. Press Y to enter the Graph Equation window . Six equa- tion entr y areas appear , from “Y1=” to “Y6=”. Since we need o[...]

  • Seite 62

    52 Chapter 4: Basic Graphing Features — Basic Keyboar d Graph Basics The graph e xamples in this ex ercise are called X-Y graphs. An X-Y graph is quite useful f or clearly displaying the relationship between two v ar iables . 7. Let’ s take a look at the graph. The ver tical axis represents the Y value, while X is represented by the horizontal [...]

  • Seite 63

    53 Chapter 4: Basic Graphing Featur es — Basic Keyboard = : The expression can be represented as a gr aph. = : The expression cannot be dr awn as a gr aph. •M ov e the cursor pointer to the “=” sign and press E to change between to-dra w and not-to-dra w . Note: To s witch the window back to the calculation screen, simply press the # key . [...]

  • Seite 64

    54 Chapter 4: Basic Graphing Features — Basic Keyboar d 2 Box A bo x area can be specified with this sub-menu tool so that the area within the bo x will be display ed full screen. To select a box area to zoom: 1. While the ZOOM menu item is selected within the ZOOM window , press 2 to select 2 Bo x . 2. The graph appears on the screen. Use the cu[...]

  • Seite 65

    55 Chapter 4: Basic Graphing Featur es — Basic Keyboard B F A CTOR Use this menu to set the v er tical and hor izontal z ooming factor . The factor set under this men u directly affects the z oom rate of the 3 In and 4 Out sub-menu tools under the ZOOM menu, as described above . To set the zooming f actor , do the follo wing: 1. Within the B F A [...]

  • Seite 66

    56 Chapter 4: Basic Graphing Features — Basic Keyboar d E TRIG 1 sin X Use this when the equation contains a sine function. 2 cos X Use this when the equation contains a cosine function. 3 tan X Use this when the equation contains a tangent func- tion. F ST O Under this menu item there is one tool that enab les the stor ing of graph window settin[...]

  • Seite 67

    57 Chapter 4: Basic Graphing Featur es — Basic Keyboard U : Press this button to tr ace the graph dra wn on the screen, to obtain the X-Y coordinates: 1. While the graph is displa yed, press the U ke y . The cursor appears, flashing on the graph line , with the present X-Y coordinates. 2. T race the graph using the ; or ' ke ys. The ; key de[...]

  • Seite 68

    58 Chapter 4: Basic Graphing Features — Basic Keyboar d • When @ " are pressed on the gr aph screen, the graph and table are displa yed on the same screen. • When @ " are pressed on the equation input screen, the graph and equation are displa yed on the same screen. 4. Now the right boundar y of the gr aph can be set. Enter the requ[...]

  • Seite 69

    59 Chapter 4: Basic Graphing Featur es — Basic Keyboard Y G G Y G@ " Y@ " @ " The follo wing illustration shows these relationships . • The split screen is alwa ys in the trace mode . Therefore , the cursor pointer appears on the gr aph. Accordingly , the coordi- nate values are displa yed rev erse in the tab le and in the equati[...]

  • Seite 70

    60 Chapter 4: Basic Graphing Features — Basic Keyboar d k : Calculations can be performed on the entered graph equation(s). Press @ k to access. The f ollowing 6 sub-menu tools are av ailab le: 1 V alue With this sub-menu tool, the Y value can be obtained by enter ing an X v alue. The flashing g raph cursor will then be placed in that position on[...]

  • Seite 71

    61 Chapter 4: Basic Graphing Featur es — Basic Keyboard 4 Maxim um Finds the maximum of the giv en graph, and places the flashing cursor at that position. Note: If the given g raph has no maximum v alue, an error message will be display ed. 5 X_Incpt Finds an X-intercept (a crossing point of the graph on the X-axis) of the given gr aph, and place[...]

  • Seite 72

    62 Chapter 4: Basic Graphing Features — Basic Keyboar d 2. Press @ , and d to enter the DRA W menu, then press G to select G SHADE . The SHADE sub-menu appears. 3. Press 1 to select 1 SET . The “Set shade” windo w appears. 4. Using the cursor ke ys, mov e the cursor pointer to the appropriate position. 5. Press @ z A . 6. Press 1 to select Y1[...]

  • Seite 73

    63 Chapter 4: Basic Graphing Featur es — Basic Keyboard f : The graph appearance can be set and v erified under this menu. Press @ f to access. A –––––– Displa ys the current FORMA T settings. The def ault setting is: OFF (for the g raph equation to be display ed on the graph) OFF (for displa ying numeric derivativ es on the graph) ON[...]

  • Seite 74

    64 Chapter 4: Basic Graphing Features — Basic Keyboar d 1. Press @ , . The substitution feature screen will appear . The equation on which the cursor pointer is located and its va riables are display ed on the right of the screen. If variab les (characters) contain no values, the g raph is not dra wn. If independent memories A to C contain any nu[...]

  • Seite 75

    65 Chapter 4: Basic Graphing Featur es — Basic Keyboard 2. Press 2 E . (2 is input to A.) The graph f or “Y1 = 2X 2 ” i s dra wn. (Since B and C hav e no v alues, they are ignored.) At this time, the gr aph for Y2 is also drawn. Y2 also uses v ar iable A which is used in Y1. Theref ore, the drawing of the g raph for Y2 is also valid. * If y o[...]

  • Seite 76

    66 Chapter 5 Advanced Calculations — Advanced Keyboar d Note: To tr y the e xamples in the chapter , it is required that the Advanced K eyboard is already set up by the user . T o learn how to set up the Advanced K eyboard, read “Changing the K eyboard” in Chapter 1. 1. T ry it! The Mendocino T ree, a coast redw ood growing in Montgomery W oo[...]

  • Seite 77

    67 Chapter 5: Advanced Calculations — Advanced Keyboard PROCEDURE 1. Since the angle of ele vation is measured in deg rees, the calculator’ s angle setting will need to be matched with that. Press @ ; to br ing up the SETUP men u. 2. On the right side of the SETUP menu, the current setup will be display ed. Make sure that the top line is indica[...]

  • Seite 78

    68 Chapter 5: Advanced Calculations — Advanced Keyboard s Enters a sine function to be used in a trigonometric expression. c Enters a cosine function to be used in a trigonometric expression. t Enters a tangent function to be used in a trigonometric expres- sion. l Enters a common logarithm function. I Enters a natural logarithm function. Example[...]

  • Seite 79

    69 Chapter 5: Advanced Calculations — Advanced Keyboard The follo wing math functions can be accessed with the use of @ ke y . T o lear n the basic steps of how to access the second function of each k ey , refer to the section “Second Function K ey” of Chapter 2. s Enters an arcsine function to be used in a trigonometric expres- sion. Example[...]

  • Seite 80

    70 Chapter 5: Advanced Calculations — Advanced Keyboard x Raises a preceding v alue to the power of - 1. If no value is preceded, then the cursor will be placed at the base. _ Enters an a th root of a base. When a value precedes, then the v alue will be incorporated as the index n umber . Otherwise, both entr y areas will be left b lank. + Enters[...]

  • Seite 81

    71 Chapter 5: Advanced Calculations — Advanced Keyboard 02 2 X 2 v alue Raises 2 to a power . Sets the cursor to e xponent. 03 fmin( fmin( equation, lower limit of x, upper limit of x ) Retur ns the v alue of var iable x when the equation Y has the minimum v alue within the specified range of x . 04 fmax( fmax(equation, lower limit of x, upper li[...]

  • Seite 82

    72 Chapter 5: Advanced Calculations — Advanced Keyboard 08 ∑ ( ∑ ( e xpression, initial value, end value [, increment] ) Retur ns the cumula- tive sum of a giv en e xpression from an initial value to an end v alue in the specified increment v alue (if not specified, default increment is 1). 09 sec sec v alue Enters a secant function to be use[...]

  • Seite 83

    73 Chapter 5: Advanced Calculations — Advanced Keyboard 18 sinh -1 sinh -1 v alue Enters an inv erse h yperbolic sine . 19 cosh -1 cosh -1 v alue Enters an inv erse h yperbolic cosine . 20 tanh -1 tanh -1 v alue Enters an inv erse hyperbolic tangent. B NUM Use the sub-menu items below to con vert a value. Refer to “Chapter 3: Basic Calculation [...]

  • Seite 84

    74 Chapter 5: Advanced Calculations — Advanced Keyboard C PROB These sub-menu items are useful f or probability calculations. Ref er to “Chapter 3: Basic Calculations — Basic Ke yboard” for details. A comprehensive list of men u items can be found in the Appendix. 1 random Retur ns a random n umber form between 0 and 1. 2 rndInt( Retur ns a[...]

  • Seite 85

    75 Chapter 5: Advanced Calculations — Advanced Keyboard Rectangular to polar coordinate conv ersion functions Conv ersion formulas: r = (x 2 + y 2 ) 1/2 , θ = tan -1 (y/x) 3 xy → r( xy → r( x coordinate, y coor dinate ) Retur ns polar coordinate radius v alue from X-Y rectangular coordi- nates. 4 xy →θ (x y →θ ( x coordinate, y coordin[...]

  • Seite 86

    76 Chapter 5: Advanced Calculations — Advanced Keyboard E ANGLE Use these tools to enter the symbols to specify angle units. 1 ° Inser ts a symbol f or “degrees”. 2 ’ Inser ts a symbol f or “minutes”. 3 ” Inser ts a symbol for “seconds”. 4 r Enters an “r” symbol, to enter a number in radians. 5 g Enters an “g” symbol, to [...]

  • Seite 87

    77 Chapter 5: Advanced Calculations — Advanced Keyboard G LOGIC Use the LOGIC sub-menu items to perf or m boolean operations . In the N-base calculation mode (binar y , octal, decimal and hexadecimal), A LOGIC will directly appear when M is pressed. The follo wing is the truth table of the combination of input A and B: AB 11 10 01 00 A and B 1 0 [...]

  • Seite 88

    78 Chapter 5: Advanced Calculations — Advanced Keyboard 4 neg neg v alue Enters a “neg” logic figure. M 4 1 E Note: “4 neg” menu appears only in the N-base calculation (binar y , octal, decimal and hexadecimal) mode . 5 xor v alue A xor v alue B Enters an Exclusive- OR (xor) logic figure. 1100 M 5 1010 E 6 xnor v alue A xnor v alue B Ente[...]

  • Seite 89

    79 Chapter 5: Advanced Calculations — Advanced Keyboard 2 real( real( complex n umber ) Retur ns the real par t of a comple x number (or list of complex numbers). 3 image( image( complex n umber ) Retur ns the imagi- nar y par t of a comple x number (or list of comple x numbers). 4 abs( abs( complex n umber ) Retur ns the absolute v alue of a com[...]

  • Seite 90

    80 Chapter 5: Advanced Calculations — Advanced Keyboard Example • Calculate (3 + 4 i ) × (4 – 6 i ) Note: It is possible to input comple x numbers ( i ) in the real n umber mode, ho wev er an error message will return. Functions av ailable for comple x number calculations The follo wing function ke ys are available f or complex number calcul[...]

  • Seite 91

    81 Chapter 5: Advanced Calculations — Advanced Keyboard 5. T OOL Menu The T OOL menu contains items to help calculating in diff erent number systems, as w ell as to help solve both linear and polynomial equation. Press @ V to access the T OOL menu. Press the # ke y (or @ q ) to escape from the menu. A NB ASE Calculations can be performed in diffe[...]

  • Seite 92

    82 Chapter 5: Advanced Calculations — Advanced Keyboard B SYSTEM With this tool, linear equations containing up to 6 unknown v alues (i.e., ax + by + cz + du + ev + fw = g ) can be solv ed. 1. Press B to select B SYSTEM , and select the number of unknown v alues. For e xample, press 2 if values x and y are unknown. 2. In the ne xt screen, an equa[...]

  • Seite 93

    83 Chapter 5: Advanced Calculations — Advanced Keyboard 3. Enter the values , as shown in the screen to the right. Pressing E at each entr y will store the value , and sets the cursor at the next entry area. 4. When done, press @ h to e x ecute the calculation. The results (i.e. the x -intersects) will be display ed. 5. T o enter a different set [...]

  • Seite 94

    84 Chapter 6 Advanced Graphing Featur es — Advanced Keyboar d In this chapter , some real-life situations are f eatured. Y ou are encouraged to modify the examples to mak e your o wn graph schemes. Note: To tr y the e xamples in this chapter , it is required that the Advanced K eyboard is already set up by the user . T o learn how to set up the A[...]

  • Seite 95

    85 Chapter 6: Advanced Graphing Features — Advanced Keyboar d CONCEPT 1. Grasp the idea of sequential equations. 2. Use the graph tracing function to obtain appro ximate values . PROCEDURE 1. First, let us set the calculator to the appropriate graphing coordinate mode. Press @ ; to enter the SETUP menu, press E to select E COORD , then press 4 to[...]

  • Seite 96

    86 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 7. Press G to dra w the graph. 8. If the line is outside of the graph’ s range, press Z then 1 to select automatic zoom. This will only displa y a small por tion of the graph, so the graph’ s range will need to be changed. 9. Press W . Find n Max= and change the value to 15 (def au[...]

  • Seite 97

    87 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 2. Graphing P arametric Equations A two-dimensional parametric equation assumes that both X and Y are represented by functions in a third variable T . When set in parametric graphing mode, the calculator automatically sets up the Graph Equation Entry screen to take one set of X and Y p[...]

  • Seite 98

    88 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 3. P olar Graphing P olar coordinates are a different method of specifying a point in tw o dimensions; the location of the point is described by the distance from the X-Y intersect “r”, and its elev ation angle “ θ ”. Example •D ra w a graph: r = 16cos( θ )sin( θ ) . 1. Pr[...]

  • Seite 99

    89 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 4. Graphing Sequences The sequence graph mode can store and sim ultaneously draw three gr aph equations u(n) , v(n) , and w(n) . Va riables u , v , and w are entered as @ u (or v , w ). Use X to enter the natural number n . A sequence is an ordered set of numbers with a defined relatio[...]

  • Seite 100

    90 Chapter 6: Advanced Graphing Features — Advanced Keyboar d phase-based (uv , uw , or vw) The u n values will be plotted against the v n v alues (uv). (n – 1 )-based (W eb) The u n v alues will be plotted against the u n-1 v alue. Note: • When u n–2 is incorporated in to the equation, the u(nMin) requires two values: the minimum, and the [...]

  • Seite 101

    91 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 4. Now , go to the Graph Equation Entr y window b y pressing Y . The cursor is set at the first line u( n ); pressing C will clear any pre vious entr y , as well as to put the cursor at the right side of the equation. 5. Enter 2 × 2 n-1 . Use the X ke y to enter n . When done, press E[...]

  • Seite 102

    92 Chapter 6: Advanced Graphing Features — Advanced Keyboar d The calculator can accept up to three sequential equation entries. W e will use the v set, since the u set already has an entr y . Move the cursor do wn to the v(n) entry area, and press C . 4. Enter 2 × 0.9 n-1 , then press E . The cursor will be set to the f ourth entr y row v(nMin=[...]

  • Seite 103

    93 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 3. Press the Y ke y to go to the Graph Equation Entry window . 4. At the first equation entr y row , enter u(n - 1) + 100 . When done entering, press E . 5. At the next entry row , make sure that it has the star ting value “0”. 6. Bring the cursor down, and clear the rest of the fo[...]

  • Seite 104

    94 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 2. Press Y to v er ify the pre viously entered polar graph equation, then press G to dra w the graph. Adjust the view b y using Z menu items . 3. Press @ k . 4. Press 1 to select 1 V alue . The graph is dra wn back on the screen again, with the θ = prompt visible at the bottom left si[...]

  • Seite 105

    95 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 6. Format Setting Y ou can set up the Graph screen f or mat from the FORMA T menu. Press @ f to displa y the Graph format menu. Note: G TYPE appears only when the sequence coordinate graph mode is selected. A –––––– Displa ys the current FORMA T settings. The default settin[...]

  • Seite 106

    96 Chapter 6: Advanced Graphing Features — Advanced Keyboar d F CURSOR The coordinate system that indicates. The location selected b y the trace or other function can be selected from 1 RectCoord (Rectangular coordinates) or 2 P olarCoor d (P olar coordinates) (In the parametric system, the T indication is added.) G TYPE This menu is only activ e[...]

  • Seite 107

    97 Chapter 6: Advanced Graphing Features — Advanced Keyboar d D EXP 2 e x Use this tool when the equation contains a f or m of “ e x ”. 4 In X Use this tool when the equation contains a form of “ In x ”. E TRIG 4 sin –1 X Use this when the equation contains an arc sine function. 5 cos –1 X Use this when the equation contains an arc co[...]

  • Seite 108

    98 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 8. Setting a Windo w The W ke y displays the gr aph window setup . The display will differ according to the selected coordinate system. See also Chapter 4 “Basic Graphing F eatures — Basic K eyboard” on pages 57 to 58 f or details of rectangular coordinate system settings. Rectan[...]

  • Seite 109

    99 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 9. T ab les The calculator enables y ou to illustrate the changes using the equation and graph y ou hav e input. It also has tab les for showing a list of X and Y values . Each column item can displa y up to 7 digits, including a sign and/or a decimal point. There are f our kinds of ta[...]

  • Seite 110

    100 Chapter 6: Advanced Graphing Features — Advanced Keyboar d P olar coor dinate system • The v ar iable θ is displa yed in the left end column. • The columns θ , R1 to R3 are displa yed on the first screen. • Press ; ' to horizontally scroll the table . • The 10-digit value in the column where the cursor is currently located is d[...]

  • Seite 111

    101 Chapter 6: Advanced Graphing Features — Advanced Keyboar d User: Displays a b lank table . As you input v alues for v ariable columns, table v alues are automatically calculated by the equation. Thus, although T ableStart and T ableStep inputs can be made when selecting User , set values will be ignored. • Press ; or ' to switch betwee[...]

  • Seite 112

    102 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 10. The DRA W Function With the DRA W function, lines, circles , graphs, and pix el points can be added to the graph window . The DRA W menu also contains configuration tools f or the ordinar y graphs entered in the Graph Equation Entry window: line types, shading, and visibility stat[...]

  • Seite 113

    103 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 2 Line( Draws a line according to the giv en X-Y coordinates of a star t/end point. Note: This tool can be used with any type of g raph. Line(x-coordinate of start point, y-coordinate of start point, x-coor dinate of end point, y-coordinate of end point [,0]) Example 1. Select the DRA[...]

  • Seite 114

    104 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 2. Press A to select A DRA W , then press 2 to select 2 Line( . The GRAPH window reap- pears, with the coordinate of the cursor showing at the bottom of the screen. Note: To change the cursor coordinate system, use the FORMA T menu. Select B CURSOR , then select the required coordinat[...]

  • Seite 115

    105 Chapter 6: Advanced Graphing Features — Advanced Keyboar d H_Line Example •D raw a horizontal line manually . 1. Press @ d A 3 . 2. Use the cursor navigation k eys ( { } ; ' ) to mov e the flashing cursor to the appropriate position. 3. Press E to dra w the line. 4 V_line Draws a v er tical line on the graph windo w . V_Line x-value Dr[...]

  • Seite 116

    106 Chapter 6: Advanced Graphing Features — Advanced Keyboar d T_line( equation, x-value ) Example •D raw the tangental line of y = x 2 at x = 1 . 1. Select T_Line( . 2. Enter “x 2 , 1)” on the line. 3. Press E . Note: It is also possible to specify a function equation from Y0 to Y9 if stored. (T_line(Y1, 1)) T_line( Example •D raw a tang[...]

  • Seite 117

    107 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 6 Draw Draw equation Draws an additional g raph based on a given e xpres- sion. Example •D raw the gr aph of y = 3x 2 -4x+2 . 1. Select Draw . 2. Enter “3x 2 – 4x + 2” on the line. 3. Press E . Note: This tool can be used with rectangular coordinate graphs only . 7 Shade( Shad[...]

  • Seite 118

    108 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 8 DrawIn v DrawIn v equation Draws an in verse of a giv en graph e xpression. Example •D raw the in verse gr aph of y = 1 4 x 2 – 8 . 1. Select DrawIn v . 2. Enter “ 1 4 x 2 – 8” on the line. 3. Press E . Note: It is also possible to specify a function equation from Y0 to Y9[...]

  • Seite 119

    109 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 0 T ext( T ext( column, ro w, “ strings ”) Enters a te xt str ing at a giv en coordinate. Example •D raw “HELLO” on the graph at column 2, ro w 1. Te xt(2, 1, “HELLO”) Note: Use M E 3 E to enter “”(double quotes). Column and ro w definitions for text input * Ref er t[...]

  • Seite 120

    110 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 1 PntON( PntON( x-coordinate, y-coordinate ) Draws a point at a giv en coordinate. It takes the X-Y coordinate as an argument. This tool can either be accessed from the GRAPH window or other windo ws. Enter ing from the GRAPH window enab les a graphic entr y , while entering from othe[...]

  • Seite 121

    111 Chapter 6: Advanced Graphing Features — Advanced Keyboar d 7 PxlTST( PxlTST( column, ro w ) Retur ns “1” if a pix el point is present at a given screen location indicated by column and ro w . Retur ns "0" if no pix el point exists . C ON/OFF Sets the visibility status of a given g raph number (0-9). 1 DrawON DrawON [ equation nu[...]

  • Seite 122

    112 Chapter 6: Advanced Graphing Features — Advanced Keyboar d E G_D A T A All graph data, including the g raph equations and window settings, can be stored in 10 g raph storage areas (1-9, and 0), which can be called up later . 1 StoGD StoGD n umber (0-9) Sav es the graph data. Example • Store the current graph data in location #1. Note: The l[...]

  • Seite 123

    113 Chapter 6: Advanced Graphing Features — Advanced Keyboar d Note: Attempting to call back gr aph data from an empty location will result in an error . F PICT Stores and recalls the display ed pix el data for the gr aph window . The graph equations will not be sa ved or recalled with these tools. 1 StoPict StoPict n umber (0-9) Sav es the pixel[...]

  • Seite 124

    114 Chapter 6: Advanced Graphing Features — Advanced Keyboar d G SHADE With these sub-menu tools, inequalities , intersections and compliments of multiple gr aphs can be visualized. 1 SET Sets up the shading area for each g raph. Ref er to “3. Other Useful Graphing F eatures” in Chapter 4 of this manual to learn how to utilize this tool. 2 IN[...]

  • Seite 125

    115 Chapter 7 SLIDE SHOW Featur e The SLIDE SHOW f eature is especially incor porated to help students understand math concepts utilizing the calculator’ s graphing capabilities. With this f eature, the calculator’ s screen images can be captured, organized, and stored. The SLIDE SHOW f eature is designed to be used with SHARP’s optional o ve[...]

  • Seite 126

    116 Chapter 7: SLIDE SHOW Feature 4. Press Y to enter the graph equation mode . 5. Enter (x – 3)(x – 1)(x + 2) at the first equation. 6. Press @ n . The message “STORE SCREEN: 01” will appear . The image will be stored on page 1 of the SLIDE SHO W “CUBIC, ” and the screen will automatically return to the pre vious screen. Each time you [...]

  • Seite 127

    117 Chapter 7: SLIDE SHOW Feature Playing bac k the newly created SLIDE SHO W 1. Press ] to go to the SLIDE SHOW men u. Press B to select B PLA Y . A list of sav ed SLIDE SHO W projects will be shown. 2. Select the one you w ant to play bac k, either by using the shor tcut ke y strokes, or b y moving the cursor . (Select the item and press E .) The[...]

  • Seite 128

    118 Chapter 7: SLIDE SHOW Feature 6. Go down to the last captured image using the } key . 7. Press E to mark the image. 8. Go up to the page 3 using the { key . 9. Press E . The marked image will be inser ted at page 3. 2. The SLIDE SHO W menu This section of the chapter summarizes each item in the SLIDE SHO W feature menu. A CURR Displa ys the nam[...]

  • Seite 129

    119 Chapter 7: SLIDE SHOW Feature 1. While in the SLIDE SHOW men u, press E to select E EDIT , then press 1 to select the 1 MO VE sub-men u item. 2. With the { and } cursor ke ys, select the captured image you wish to mo ve, then press E . 3. Select the position to which you wish to mo ve the pre viously selected image using the { and } cursor ke y[...]

  • Seite 130

    120 Chapter 8 Matrix Featur es Within the Matrix features , up to ten different matrices can be entered. To get to the Matrix features , press @ m . Define and edit the matrices within this mode too . 1. T ry it! Three equations can be derived as f ollows, containing three unknown quantities: 3x + 2y + z = 39 2x + 3y + z = 34 x + 2y + 3z = 26 x , y[...]

  • Seite 131

    121 Chapter 8: Matrix Features 1. Press @ m to enter the MA TRIX menu. 2. Press B to select EDIT and then 1 to select 1 mat A . 3. Press 3 E 4 E to define the dimensions of the matrix (3 rows × 4 columns). 4. Press 3 E 2 E 1 E 3 9 E to enter the first row of 3x + 2y + z = 39 . The cursor will automatically position itself at the begin- ning of the[...]

  • Seite 132

    122 Chapter 8: Matrix Features 10 . Press E . The reduced row echelon f orm of the matr ix is display ed. Display Solution 1x + 0y + 0z = x = 9.25 0x + 1y + 0z = y = 4.25 0x + 0y + 1z = z = 2.75 2. Entering and Vie wing a Matrix Up to 5 rows b y 3 columns of elements can be display ed on the screen. Press ; ' { } to scroll the matrix. Use ro w[...]

  • Seite 133

    123 Chapter 8: Matrix Features 1. Press appropriate number ke ys to enter numbers at the 1st row and 1st column. The number is displa yed at the bottom of the screen. 2. Press E . The cursor mov es to the 1st row , 2nd column. 3. Sequentially input the element data. 4. Press # after completion of data input. Editing keys and functions ; ' Mov [...]

  • Seite 134

    124 Chapter 8: Matrix Features 3. Normal Matrix Operations Many calculations can be made betw een a matr ix and a real number or between matrices. Examples of each calculation are as f ollows: To add or subtract matrices, the dimensions m ust be the same. Example 1. Press # C . 2. Press @ m A 1 + @ m A 2 3. Press E . To multiply two matrices, the c[...]

  • Seite 135

    125 Chapter 8: Matrix Features 4. Special Matrix Operations This calculator has three Matrix calculation menus: OPE , MA TH and [ ] . Examples of each calculation are as f ollows: Calculations using OPE menus 01 dim( dim( matrix name ) Returns the dimensions of the specified matr ix. Example • Check the dimensions of mat A. •N e wly define or c[...]

  • Seite 136

    126 Chapter 8: Matrix Features 03 cum ul cumul matrix name Returns the cumulative matrix. Example • Obtain the cumulativ e sum of mat A. cumulativ e sum of a ij = a i1 + a i2 + ...... + a ij 04 augment( augment( matrix name , matrix name ) Appends the second matrix to the first matrix as new columns . The first and second matr ices must hav e the[...]

  • Seite 137

    127 Chapter 8: Matrix Features 07 ro w_swap( ro w_swap( matrix name , ro w number , ro w number ) Returns the matr ix with specified rows s wapped. Example •S w ap the 2nd and 3rd rows in the matrix E. e 2j = e 3j , e 3j = e 2j 08 ro w_plus( row_plus( matrix name , ro w number , ro w number ) Adds the first specified row data to the second specif[...]

  • Seite 138

    128 Chapter 8: Matrix Features 11 mat → list( Creates lists with elements from each column in the matrix. If dimensions of columns is greater than the number of lists specified, e xtra columns are ignored. Also , if it is less than the number of lists specified, e xtra lists are ignored. mat → list( matrix name, list name 1, ..., list name n ) [...]

  • Seite 139

    129 Chapter 8: Matrix Features Calculations using MA TH menus 1 det det matrix name Returns the deter minant of a square matrix. The determinant can only be applied to a matr ix which has the same row and column dimensions . Example • Giv e the deter minant of matrix A. 2 trans trans matrix name Returns the matr ix with the columns transposed to [...]

  • Seite 140

    130 Chapter 8: Matrix Features Use of [ ] menus Using [ ] menus , you can manually enter a matrix on the calculation screen. 1. Press @ m E 1 ( [ ) at the beginning of the matrix. 2. Press @ m 1 ( [ ) to indicate the beginning of the first row . Once you enter the manual matrix entry mode, you can directly enter “or” by selecting 1 or 2 . 3. En[...]

  • Seite 141

    131 Chapter 9 List Featur es By analyzing years of data, w e found that it tak es the dr iv er of a car approximately 0.75 seconds to react to a situation bef ore actually applying the brak es. Once the brake pedal is depressed, it takes additional time f or the car to come to a complete stop . Here is the equation used to compute total stopping di[...]

  • Seite 142

    132 Chapter 9: List Features Note: •Y ou can also perform the abov e calculation using the direct list input method (using braces). 1.1 | {30, 40, 50, 60, 70, 80} + 0.06 | {30, 40, 50, 60, 70, 80} y and press E . • In the Basic mode, y ou can access L1 to L6 from A NAME and “{ }” (braces) from E {} in the LIST menu. Car speed Stopping dista[...]

  • Seite 143

    133 Chapter 9: List Features 2. Creating a list A list is a series of values enclosed by br aces, and is treated as a single v alue in calculations or an equations. The calculator has 6 storage areas f or lists from L1 to L6. Y ou can edit or access lists b y pressing @ 1 to 6 (numer ic k eys from 1 to 6). Using @ l (L_D A T A) menus , you can stor[...]

  • Seite 144

    134 Chapter 9: List Features 1. Press 10 | @ 1 R @ 3 E . 2. Press s @ 3 E . “... ” shows that results extend be yond the displa y to the r ight. Use ; , ' to scroll left or r ight, respectively . 3. Press @ 1 + @ 2 E . 4. Press _ 3 R @ 1 ( 3 ) A / @ 1 E . 5. Press 7 R @ 1 ( 5 ) A / @ 1 E . Note: Separated b y a colon (:), two or more comma[...]

  • Seite 145

    135 Chapter 9: List Features 4. Special List Operations This calculator has three list calculation menus: OPE, MA TH and L_DA T A. * In the Basic mode, L1 to L6 (list names) can be accessed from the LIST men u. Calculations using the OPE menu functions 1 sortA( sor tA( list name ) Sor ts lists in ascending order . Example • Store list {2, 7, 4} i[...]

  • Seite 146

    136 Chapter 9: List Features 3 dim( dim( list ) Returns the number of items (dimension) in the list. Example • Displa y the dimension of list L1. natural number ⇒ dim( list name ) Set the number of items (dimension) of specified list to the specified number . Example • Set the dimension of list L6 to 4. All the elements are initially 0. This [...]

  • Seite 147

    137 Chapter 9: List Features 5 seq( seq( equation , start value , end value[ , increments] ) target list name Makes a list using the specified equation, r ange (star t value and end value) and increments . Example • Fill the list using the equation y = x 2 – 8 , where x increases from - 4 to 4 by increments of 2. * If increment is omitted, the [...]

  • Seite 148

    138 Chapter 9: List Features 8 augment( augment( list 1 , list 2 ) Returns a list appending the specified lists. Example • Obtain the list appending L1 ({4, 2, 7}) and L2 ({ - 1, - 3, - 4}). 9 list → mat( list → mat( list 1, ..., list n, matrix name ) Makes a matrix using the specified list as column data, stored under the specified matrix na[...]

  • Seite 149

    139 Chapter 9: List Features Calculations using MA TH Menus During the following e xplanations, the values of lists , L1 and L2 will be assumed to be: L1 = {2, 8, - 4} L2 = { - 3, - 4, - 1} 1 min( min( list ) Returns the minimum value in the list. Example • Calculate the minimum v alue of the list L1. 2 max( max( list ) Returns the maximum value [...]

  • Seite 150

    140 Chapter 9: List Features 4 median( median( list [, frequency list] ) Returns the median value of items in the specified list. Example • Calculate the median v alue of the list L2. 5 sum( sum( list [ , start number , end number] ) Returns the sum of items in the specified list. Example • Calculated the sum of the list items of L1. *Y ou can [...]

  • Seite 151

    141 Chapter 9: List Features 7 stdDv( stdDv( list [, frequency list] ) Returns the standard deviation of the specified list items. Example • Calculate the standard deviation using the list items of list L2. 8 varian( v arian( list [, frequency list] ) Returns the variance of the specified list items. Example • Calculate the v ar iance using the[...]

  • Seite 152

    142 Chapter 9: List Features 3. Press G . Tw o graphs are dr awn as shown on the right. In this case, the first one represents the equation y = 3x 2 + 5x + 2 and the second y = - 2x 2 + 3x + 4. Y ou can also use L1 to L6 to enter the equation; 1. Set the lists L1 to L3 as f ollo ws; {3, - 2} ⇒ L1, {5, 3} ⇒ L2, {2, 4} ⇒ L3, and then 2. Enter t[...]

  • Seite 153

    143 Chapter 9: List Features 2 RclLD Rc lLD natural number (0-9) Recall the stored group of lists f or use. Any current list data (not stored in L_D A T A) is ov erwritten. Example 1. Press @ l and select C 2 . 2. Enter the number to recall and press E . “Done” will appear and the current lists will be ov erwritten by the recalled list group . [...]

  • Seite 154

    144 Chapter 9: List Features How to edit the list 1. Press S and select A EDIT , then press E . 2. Use the cursor ke ys to mov e the cursor to the target cell. 3. Enter the new v alue and press E . The new v alue will be stored in the target cell. * The displa y on the bottom line relates to the cell where the cursor pointer is located. Though any [...]

  • Seite 155

    145 Chapter 10 Statistics & Regr ession Calculations The follo wing table shows the access counts (per hour) of a certain web site from Sunda y midnight to Monday midnight. Let’ s input these data into the calculator (List function) and plot a histogram. 1. Press S . The Stat menu will appear . Hours 01 02 03 04 05 06 07 08 09 10 11 12 13 14 [...]

  • Seite 156

    146 Chapter 10: Statistics & Regression Calculations 2. Select A EDIT and press E . The List table will appear . Initially , all elements are blank and the cursor pointer is located at L1-1 (top left). 3. Input 1 f or hour . 4. 1 will be displa yed at the bottom line of the displa y . 5. Press E to input the inde x value. 6. Continue the proced[...]

  • Seite 157

    147 Chapter 10: Statistics & Regression Calculations 3. The first line shows if the graph dra wing is on or off. Initially , the graph dra wing is off . With the cursor pointer at the “on” position, press E to set the graph dra wing on. 4. Press } to mov e the cursor to the next line (D A T A). 5. Select X for 1-v ar iable plotting and pres[...]

  • Seite 158

    148 Chapter 10: Statistics & Regression Calculations 15 . Select 9 Stat and press E . Y ou can directly press 9 at step 13 to select 9 Stat . The histogram will appear on the displa y . When you dra w the graph using the automatic statistics z oom function ( 9 Stat ), the division number is automatically set to X max – X min X scl (default v [...]

  • Seite 159

    149 Chapter 10: Statistics & Regression Calculations 8. Move the cursor to GRAPH and press [ . 9. Press B 2 (broken line with cross points). 10 . Press G . Now y ou can compare the diff erence in web site access counts between Sunda y and Monday . Press @ q . 2. Statistics Features 1. ST A T menus Press the S key to access the statistical calcu[...]

  • Seite 160

    150 Chapter 10: Statistics & Regression Calculations 2. Statistical e valuations av ailable under the C CALC menu 1_Stats 1-variab le (x) statistical a calculations x _ Mean of sample (x) sx Standard deviation of sample (x) sx = Σ x 2 – nx 2 n – 1 σ xP opulation standard deviation of sample (x) σ x = Σ x 2 – nx 2 n Σ x Sum of sample [...]

  • Seite 161

    151 Chapter 10: Statistics & Regression Calculations The web site access counts e xample on page 145 will be used again to demonstrate the calculation of statistical values . * If you did not pre viously enter the abov e values in the list tab le, press S and select A EDIT to displa y the list entr y mode and enter the values . Calculating one-[...]

  • Seite 162

    152 Chapter 10: Statistics & Regression Calculations Calculating the pre vious two-variable statistical v alues can be perf or med in a single operation. Use a “ , ” (comma) to separate the two v ar iab les. 1. Press # C and S to display the statis- tics menu. 2. Press C and then 2 . 2_Stats will be display ed on the top line of the screen [...]

  • Seite 163

    153 Chapter 10: Statistics & Regression Calculations 3. Graphing the statistical data Press [ to access the statistical graphing mode . The calculator can plot statistical data on up to 3 types of graph (PLO T1 to PLOT3) to chec k the state of distribution. The graph types can be selected from histog ram, broken line plot, normal probability pl[...]

  • Seite 164

    154 Chapter 10: Statistics & Regression Calculations A broken line g raph for the frequency distribution of sample (x) Three types of points can be selected from circle, cross and square. The correlation of points between histogr am and broken line plot are shown on the right. (The broken line is displa yed by connect- ing the upper left points[...]

  • Seite 165

    155 Chapter 10: Statistics & Regression Calculations A box plot g raph of sample (x) A. The minimum v alue (xmin) of the sample (x) B. The first quar tile (Q1) C. Median (Med) of the sample (x) D. The third quar tile (Q3) E. The maximum v alue (xmax) of the sample (x) A modified bo x plot graph of sample (x) A. The minimum v alue (xmin) of the [...]

  • Seite 166

    156 Chapter 10: Statistics & Regression Calculations Pie graph of sample (x) • Maximum number of division is 8. • Calculation range: 0 ≤ x < 10 100 • Data can be displa yed in two modes: •V alue displa y: 8 digits •P ercentage display: Fixed decimal (2 digits decimal) * Pie graphs are dr awn in the same order as on the specifying[...]

  • Seite 167

    157 Chapter 10: Statistics & Regression Calculations 2. Specifying statistical graph and graph functions • Up to three graphs can be plotted per sample data. 1. Press [ . 2. Select from A PLO T1 , B PLO T2 or C PLO T3 and press E to set the statistical graphing specifications . Press @ q before step #3. •Y ou ma y just press A to C to selec[...]

  • Seite 168

    158 Chapter 10: Statistics & Regression Calculations 3. • T o set the all plotting ON: Press 1 ( 1 PlotON ). •T o set the all plotting OFF: Press 2 ( 2 PlotOFF ). *Y ou can control the plotting of PLO T1 to PLOT3 separ ately by pressing 1 ~ 3 after PlotON (or PlotOFF ). 4. Press E to set. 4. T race function of statistical graphs • The tra[...]

  • Seite 169

    159 Chapter 10: Statistics & Regression Calculations 4. Data list operations Descending sor t, ascending sor t, changing the list order and deleting the lists can be done in the Operation men u. Press S B OPE to access the data list operations . 1 sortA( sor tA( list ) Sor ts the list in ascending order . This function is the same as the sor tA[...]

  • Seite 170

    160 Chapter 10: Statistics & Regression Calculations 5. Regression Calculations 1. Press S D REG . The Regression menu is displa yed. 01 Med_Med Med_Med (list name for x, list name for y [, frequency list] [, equation name to store]) Finds the regression line using the median-median method. (linear regression) Fo rm ula: y = ax + b Pa r ameters[...]

  • Seite 171

    161 Chapter 10: Statistics & Regression Calculations 06 Rg_x 4 Rg_x 4 (list name for x, list name f or y [, frequenc y list] [, equation name to store]) Finds the regression curve using the f our th degree polynomial. (quadratic regression) Fo rm ula: y = ax 4 + bx 3 + cx 2 + dx + e Pa r ameters: a, b , c, d, e, R 2 07 Rg_ln Rg_ln (list name f [...]

  • Seite 172

    162 Chapter 10: Statistics & Regression Calculations 11 Rg_x –1 Rg_x –1 (list name for x, list name for y [, frequency list] [, equation name to store]) Finds the regression curve using the reciprocal function. (recipro- cal regression) Fo rm ula: y = a + bx - 1 Pa r ameters: a, b , r , r 2 12 Rg_ax b Rg_ax b (list name for x, list name for[...]

  • Seite 173

    163 Chapter 10: Statistics & Regression Calculations 15 x’ v alue or list x’ Finds the estimated v alue of x for a giv en value of y b y applying the function determined by the regression. Example When the follo wing is entered as statistical data: x1 0 2 03 04 05 0 y2 0 4 06 08 01 0 0 Find estimated value of x giv en y = 140 . 1. Enter the[...]

  • Seite 174

    164 Chapter 10: Statistics & Regression Calculations 1. Press S A E . 2. Enter the time into list 1 (L1). 3. Enter the temperature into list 2 (L2). 1. Press [ A E . 2. Press E to turn on the plotting. 3. Press } and ' to select XY of D A T A menu and press E . F req will change to ListY and set L2 to ListY . 1. Press } to mov e the cursor[...]

  • Seite 175

    165 Chapter 10: Statistics & Regression Calculations • There are residuals between reg ression cur ves and actual v alues. • The residual list stores these residuals automatically . • The resid list can be f ound in B REGEQN of the ST A T V ARS menu ( @ z H E B 0 ). • Use the f ollowing ke y operation to recall the residual list from th[...]

  • Seite 176

    166 Chapter 10: Statistics & Regression Calculations • 16 InputList and 17 InputStats specify the abov e input methods. 16 InputList: Sets the input mode to the statistic data list method 17 InputStats: Sets the input mode to the value input mode F or e xample, press S E 1 6 E to set to the list input mode. 5. Press @ h to e xecute the h ypot[...]

  • Seite 177

    167 Chapter 10: Statistics & Regression Calculations 02 Ftest2samp Tw o samples data are tested for equality of standard de viation σ 1 and σ 2 . Example T est when population standard deviation σ 1 < σ 2 , n 1 = 20, standard deviation sx 1 = 5.6, n 2 = 50, and standard deviation sx 2 = 6.2 1. Press # S E 1 7 E . 2. Press S E 0 2 . The p[...]

  • Seite 178

    168 Chapter 10: Statistics & Regression Calculations 3. Press ' E } to select µ < µ 0 and press E . 4. Mov e the cursor pointer to µ 0 and input 65 and press E . 5. Set the List to L1 and press E . 6. Press @ h . Answ ers are display ed on the screen, where t is the t statistic for the test, p is the p value f or the test and sx indi[...]

  • Seite 179

    169 Chapter 10: Statistics & Regression Calculations 4. Press @ h . 05 TtestLinreg T ests the significance of the slope for the linear regression and its correlation coefficient ρ . Example The test is for the slope β , and correlation coefficient ρ obtained from statistical data X {65, 56, 78, 86, 92, 71, 68} and Y {95, 59, 88, 78, 75, 68, [...]

  • Seite 180

    170 Chapter 10: Statistics & Regression Calculations 06 Tint1samp Finds the confidence interval for the population mean µ . Example Find the confidence interval for the statistical data of {65.6, 62.8, 66.0, 64.5, 65.1, 65.3, 63.8, 64.2, 63.5, 64.4}, from a giv en population and the lev el of confidence is 0.99. 1. Enter the abov e statistical[...]

  • Seite 181

    171 Chapter 10: Statistics & Regression Calculations 1. Enter the abov e data in to lists L1 and L2. 2. Press S E 0 7 . The parameter input screen will appear . 3. Enter the appropriate value in each field. 4. Press @ h . Answ ers are display ed on the screen, where the numerical value within () indicates the confidence inter v al for the diff [...]

  • Seite 182

    172 Chapter 10: Statistics & Regression Calculations • µ 0 indicates the h ypothesis mean, σ indicates the population standard deviation, x indicates the sample mean and n indicates the sample size. (“n” is a positive integer .) 4. Enter the appropriate value in each field. 5. Press @ h . Answ ers will be display ed on the screen, where[...]

  • Seite 183

    173 Chapter 10: Statistics & Regression Calculations 10 Ztest1prop T ests the success probability P 0 of a population. Example A coin was tossed 100 times and landed head side up 42 times . Nor mally , the probability of head facing up is 0.5. T est to see if the coin is fair . 1. Press S E 1 0 . The parameter input screen will appear . • pro[...]

  • Seite 184

    174 Chapter 10: Statistics & Regression Calculations 3. Press @ h . Answ ers will be display ed on the screen, where P ^ indi- cates the calculated success r ate of the data combined with sample data 1 and 2, and P ^ 1 and P ^ 2 show the success rates of sample data 1 and 2, respectively . n 1 and n 2 are positive integers . 12 Zint1samp Finds [...]

  • Seite 185

    175 Chapter 10: Statistics & Regression Calculations 13 Zint2samp Finds the confidence bound of two sample means µ 1 and µ 2 . Example Find the confidence interval of µ 1 and µ 2 of sample data with the confidence lev el of 0.9, where x _ 1 = 77.3, σ 1 = 3.4, n 1 = 30 and x _ 2 = 75.2, σ 2 = 2.8, n 2 = 20 (x _ 1 and x _ 2 indicate sample [...]

  • Seite 186

    176 Chapter 10: Statistics & Regression Calculations 2. Enter the appropriate value into each field. 3. Press @ h . Answ ers will be display ed on the screen, where the numerical value within () indicates the confidence inter v al of the success probability at a confidence lev el of 95%. *n is a positive integer . 15 Zint2prop Finds the confide[...]

  • Seite 187

    177 Chapter 10: Statistics & Regression Calculations 7. Distribution functions The calculator has distribution f eatures to find statistical calculations. To enter the distribution menu, 1. Press S F (F DISTRI) . The distribution menu will appear . 2. There are 15 options in the distribution menu. Press ' to navigate between pages, and pre[...]

  • Seite 188

    178 Chapter 10: Statistics & Regression Calculations 03 In vNorm( InvNorm( pr obability [, mean, standard deviation] ) Finds the v alue of x of a given normal distr ibution probability . A list cannot be used. * When mean ( µ ) and standard de viation ( σ ) are omitted, µ = 0 and σ = 1 are applied. Example Find the v alue of x for the proba[...]

  • Seite 189

    179 Chapter 10: Statistics & Regression Calculations 05 cdfT( cdfT( lower limit, upper limit, degree of freedom ) Finds the T distribution probability within the specified range of x f or the T distribution with n degrees of freedom. A list cannot be used. Limitations: Degree of freedom ≤ 670 • Degrees of freedom is a positiv e real number [...]

  • Seite 190

    180 Chapter 10: Statistics & Regression Calculations 08 pdfF( pdfF( v alue, degree of freedom of numerator , degree of freedom of denominator ) Finds the probability density of a specified v alue x for the F distribution that possesses two independent degrees of freedom, m and n. A list cannot be used. Limitations: Degree of freedom ≤ 70 • [...]

  • Seite 191

    181 Chapter 10: Statistics & Regression Calculations 10 pdfbin( pdfbin( trial number , success pr obability [, success number]) ) Finds the probability density of a specified v alue x for the binomial distribution. A list cannot be used except f or success numbers. When the success number is not specified, the calculation is ex ecuted by enteri[...]

  • Seite 192

    182 Chapter 10: Statistics & Regression Calculations 13 cdfpoi( cdfpoi( mean, value ) Finds the probability of a specified range x f or a P oisson distribu- tion of mean mu. Example Find the probability within the r ange up to x = 4. 14 pdfgeo( pdfgeo( success probability , v alue ) Finds the probability density of a specified v alue x for the [...]

  • Seite 193

    183 Chapter 11 Financial Featur es The financial calculation f eatures include capabilities for compound interest calcula- tions. Press @ g . The financial menu screen will appear . • Specifies the TVM-SOL VER mode. • Selects a financial calculation function • Specifies pa yment due (to pay at the beginning or end of period) • Determines in[...]

  • Seite 194

    184 Chapter 11: Financial Features •V er tical arrows along the horizontal line indicate the cash flow . An UP arrow indicates inflo w ( + ) and a DOWN arro w indicates outflow ( – ). • The calculator considers the cash inflow f or each period is constant. (Even pa yment.) 2. Deter mine the time each pa yment is due. F or deposits and loan pa[...]

  • Seite 195

    185 Chapter 11: Financial Features 11 . Input 360 for N (number of pa yment per iods) and press E . The cursor mov es to “I%”. 12 . Input 5 for I% (ann ual interest) and press E . 13 . Input 200000 for PV (present v alue) and press E . 14 . Press E . Since the pa yment amount is to be calculated from the other v alues, no v alue must be entered[...]

  • Seite 196

    186 Chapter 11: Financial Features 17 . Press E . Usually C/Y (cumulativ e interest per year) is the same value as P/Y . If not, enter the value instead. 18 . Press { 3 times to mov e the cursor to PMT (payment amount). 19 . Press @ h . The result will appear as follo ws. 20 .P a[...]

  • Seite 197

    187 Chapter 11: Financial Features Tr y it! 2 If the monthly payments in the first e xample is limit to a fixed $800, ho w much must be the present v alue (PV) and the required amount of down pa yment. 1. Press @ ; C 2 D 2 T AB is set to 2 and FSE is set to FIX. 2. Press C @ g A and E . The previous TVM-SOL VER screen will appear with the cursor fl[...]

  • Seite 198

    188 Chapter 11: Financial Features •S o, the required amount of down pa yment is $300,000 – $149,025.29 = $150,974.71. Using the TVM-SOL VER screen, you can obtain v arious results by inputting the known variab les and then moving the cursor to the unknown v ariable and pressing @ h . The value where the cursor pointer is placed will be calcula[...]

  • Seite 199

    189 Chapter 11: Financial Features 2. CALC functions Press @ g B to access the CALC functions. The CALC functions 01 to 05 calculate any of the f ollowing va r iables from the other v ariables. (The same calculations are possible as the SOL VER functions.) N: Number of pa yment per iods I%: Interest PV : Present value (principal sum) PMT: Pa yment [...]

  • Seite 200

    190 Chapter 11: Financial Features 06 Npv ( Npv ( Interest rate, initial in vestment, list of following col- lected in vestment [, frequency list] ) Calculates the net present v alue and evaluates the v alidity of the inv estment. Y ou can enter unequal cash flows in the list of f ollo wing collected inv estment. Example The initial inv estment is [...]

  • Seite 201

    191 Chapter 11: Financial Features The follo wing CALC functions, 08 Bal , 09 Σ Prn and 10 Σ Int require the v alues of I%, PV and PMT va r iables . Enter the values bef orehand in the TVM- SOL VER function. Example using the 08 and 10 calculations Y ou plan to purchase a house f or the price of $300,000. The down payment is $100,000. Calculate t[...]

  • Seite 202

    192 Chapter 11: Financial Features Con version functions 11 → Apr ( → Apr ( effective interest rate, number of settlements ) Conv er ts effectiv e interest rate to nominal interest rate Example If the effectiv e interest rate is 12.55%, how much is the nominal interest rate f or the quar terly compound interest? If the monthly compound interest[...]

  • Seite 203

    193 Chapter 11: Financial Features 3. V ARS Menu The V ARS menu consist of a list of the v ar iables used f or the TVM-SOL VER functions. • The V ARS menu can be used to enter v alues in the sub-menu within the Finance menu. 1. Press @ g D . 2. The V ARS sub-menu will appear . 3. Select the appropriate var iable to use . The variab les in the V A[...]

  • Seite 204

    194 Chapter 12 The SOL VER Featur e The SOL VER feature is one of the calculator’ s most powerful and distinctiv e features , and helps you solv e math problems with v arious analysis methods. Using this f eature, problems from linear equations to comple x f or mulas can be solv ed with ease. To access the SOL VER feature , press @ ' ; to ex[...]

  • Seite 205

    195 Chapter 12: The SOL VER Feature 1. Enter SOL VER by pressing @ ' . The word SOL VER will flash on the screen, indicating that you are no w in the SOL VER feature mode . 2. Enter the equation “A = 2B 2 + 4C”. Press A A A = 2 A B y + 4 A C. 3. Press E . The screen abov e right appears, indicating that there are 3 va riables to be assigne[...]

  • Seite 206

    196 Chapter 12: The SOL VER Feature Newton’ s method is a technique of finding appro ximate solutions to a math problem via calculus , when conv entional algebraic techniques just cannot work. If the Equation method f ails, the calculator will automatically s witch to Newton’ s method. Example Solv e “X 2 + 4X – 2 = 0”. 1. Enter SOL VER b[...]

  • Seite 207

    197 Chapter 12: The SOL VER Feature 6. The follo wing window shows the appro ximate value of X (0.449489742), the right side v alue of the equation (assumed as “0”, at step #2), the left side value (which the entered e xpression results to this value when the v alue X is entered), and the diff erence between the left and the right side. 7. Sinc[...]

  • Seite 208

    198 Chapter 12: The SOL VER Feature The Graphic method is another wa y of approximating solutions , using graphical representations . This method is par ticularly useful when finding more than one solution on a graph axis . Example Obtain values f or “Y = X 3 – 3X 2 + 1”, when Y = 0. 1. Press @ ' to enter SOL VER. Clear screen entries by[...]

  • Seite 209

    199 Chapter 12: The SOL VER Feature Note: The analysis will be limited to the range specified; a solution outside of the analysis range will not be detected. If no crossing point is found in the r ange, then a message “No solution found” will show at the bottom of the screen. 7. Pressing @ h at this point will engage the analysis, as well as th[...]

  • Seite 210

    200 Chapter 12: The SOL VER Feature 2. Saving/Renaming Equations f or Later Use The expressions y ou hav e entered in the SOL VER can be named and stored: 1. Go to the SOL VER menu by pressing @ ' . 2. Press C to select the C SA VE menu, and press E . 3. When the next screen appears, ALPHA LOCK mode is automatically set and the cursor is chang[...]

  • Seite 211

    201 Chapter 12: The SOL VER Feature 3. Recalling a Previousl y Saved Equation To recall a stored SOL VER equation: 1. Go to the SOL VER menu, and press B to select the B EQTN sub-menu. 2. A list of sav ed equation names appears in the sub- menu. Select the equation you wish to call back. 3. Press E . The stored equation is called back. Note: Any ch[...]

  • Seite 212

    202 Chapter 13 Pr ogramming Featur es The calculator has programming f eatures that enable automatic processing of a series of calculations any n umber of times. * The Programming f eatures are only suppor ted by the Adv anced mode. In the Basic mode, only the e x ecution of programs is av ailable. Almost all the calculation and graphing language c[...]

  • Seite 213

    203 Chapter 13: Programming Features 2. Press C E . A new prog ram window will open. 3. Input the program name (HELLO) on the top line of the screen. Up to 8 characters can be used f or the title. 4. Press E . 5. The cursor will mov e to the program input field just under the title. 6. Press P . The program menu will open. The commands and other st[...]

  • Seite 214

    204 Chapter 13: Programming Featur es When a line e xceeds the width of the screen, the display will shift to the left. 12 . Press E . The cursor will mov e to the next line and the data input will be stored. Store the program line b y line by pressing E , { or } . 13 . Press @ q to e xit the program edit screen. 14 . Press P A . A list of stored p[...]

  • Seite 215

    205 Chapter 13: Programming Features After pressing E , } or { , the line will be stored in memory . Otherwise, it is not stored. Be sure to store the all lines by pressing E ( { or } ) before quitting editing (pressing @ q ). Blank lines are ignored during ex ecution. Y ou can include blank lines to gain better readability . Mov e the cursor to th[...]

  • Seite 216

    206 Chapter 13: Programming Featur es 3. V ariables • Single letters (uppercase letter from A to Z and θ ) can be used as variab les. • Defined once in one program, a v ariable is set as a global variab le across all other stored programs unless redefined. Hence results calculated in one program can be used b y another . • Only v alue (numbe[...]

  • Seite 217

    207 Chapter 13: Programming Features 5. Pr ogramming commands •P r int, Input, W ait, Rem, End and other commands can be used in a program. Screen settings, data input/output, gr aph settings and others can be controlled from a program. • Press P in the program edit mode to input the command. A PRGM menu P A 1 Print Print v ariable Print “cha[...]

  • Seite 218

    208 Chapter 13: Programming Featur es 4 W ait W ait [ natural number (1 to 255) ] Interrupts ex ecution for the (natural number) of seconds . If no v alue is specified, interr up- tion continues until an y key is pressed. •A symbol will flash at the upper right cor ner of the screen during the wait. • This command can be used f or displaying in[...]

  • Seite 219

    209 Chapter 13: Programming Features B BRNCH menu P B See 6. Flow control tools on page 214. C SCRN menu P C C SCRN menu commands are used to displa y or clear the screen. 1 ClrT ClrT Clears the program te xt screen without aff ecting the plotted graph. 2 ClrG ClrG Clears the graph screen without aff ecting the specified graph. After the graph scre[...]

  • Seite 220

    210 Chapter 13: Programming Featur es E SETUP menu P E SETUP menu commands are used to set the v arious settings used in graphing and calculations . 01 Rect Rect Sets the graph coordinates as X and Y coordinates. 02 Param P aram Sets the graph coordinates as par ametr ic coordinates. 03 P olar P olar Sets the graph coordinates as polar coordinates [...]

  • Seite 221

    211 Chapter 13: Programming Features 12 FloatPt FloatPt 13 Fix Fix 14 Sci Sci 15 Eng Eng 16 T ab T ab integer (0 to 9) Sets the number displa y mode to floating point, fixed decimal, scientific and engineering, respectively . 17 Decimal Decimal 18 Mixed Mixed 19 Improp Improp 20 x±yi x±yi 21 r ∠ θ r ∠ θ Sets the ans wering mode to the one s[...]

  • Seite 222

    212 Chapter 13: Programming Featur es 07 AxisON AxisON Sets the specified axis to be displa yed on the gr aph screen. 08 AxisOFF AxisOFF Sets the specified axis to not be displa yed on the graph screen. 09 GridON GridON Sets the grid lines to be display ed on the graph screen. 10 GridOFF GridOFF Sets the grid lines to not be displa yed on the graph[...]

  • Seite 223

    213 Chapter 13: Programming Features G S_PLO T menu P G S_PLO T menu commands are used for statistics plotting. 1 Plt 1( Sets the statistical graph settings f or plot 1. 2 Plt 2( Sets the statistical graph settings f or plot 2. 3 Plt 3( Sets the statistical graph settings f or plot 3. The abov e menu commands hav e the same usage as the f ollo wing[...]

  • Seite 224

    214 Chapter 13: Programming Featur es 6. Flow contr ol tools The calculator has the common flow control tools such as Goto - Label loop struc- tures, and If-, F or- and While-statement clauses for enhancing a prog ram’ s efficiency . It also has the capability f or subroutines. It is recommended to use If , For or While statements rather than Got[...]

  • Seite 225

    215 Chapter 13: Programming Features For v ariable, initial value, end value [, increment] commands or multiple statements Next • The increment v alue can be omitted. The default v alue is 1. •F or and Ne xt statements must be placed at the beginning of the line. • If the comparisons va r iable > end value ( positive ) or var iable < en[...]

  • Seite 226

    216 Chapter 13: Programming Featur es Gosub label name ..................... End [Rem star t of the subr outine (label name) ] Label label name Statements Return Subroutine structures can be used for progr amming. • The Gosub label name must be the same as the Label star ting the subroutine. •A Retur n statement is necessar y at the end of the [...]

  • Seite 227

    217 Chapter 13: Programming Features 5. Press P H , select 2 RclLine and press E . The stored line will be inser ted at the targeted position. • Please note that only a single line can be stored in the memor y . V ARS menu • Functions that control the graph screen can be selected from the V ARS menu. • Press @ z to displa y the V ARS menu (sh[...]

  • Seite 228

    218 Chapter 13: Programming Featur es • The commands and functions in the V ARS menu can be displa yed on the screen. Current setting data can also be reset. • The results of arithmetic functions can also be display ed. • The ZOOM command is selected directly from the ZOOM men u. Names of some ZOOM commands change when inserted into progr ams[...]

  • Seite 229

    219 Chapter 13: Programming Features Example The follo wing data are included in list L1. L1: 165, 182.5, 173.8, 166.5, 185.3 A one-variab le calculation was ex ecuted based on this data. After returning to the calculation screen, aver age values can be view ed by using the f ollowing procedure. • Press @ z H E A 0 2 to displa y “x _ ” on the[...]

  • Seite 230

    220 Chapter 13: Programming Featur es Execution can be interrupted b y pressing O . Use this command if the program enters an infinite loop . Press ; or ' to displa y the program source with the cursor on the line where interrupted. * Ref er to Appendix “Error Codes and Error Messages” on page 235. * It is highly recommended that goto-Labe[...]

  • Seite 231

    221 Chapter 13: Programming Features 10 ⇒ dim(L1) Gosub INSCORE Gosub A V GSCORE Plt1(Hist, L1) Zm_Stat W ait End Label INSCORE 1 ⇒ I Input “ENTER SCORE”, A A ⇒ L1(1) 2 ⇒ I F or I, 2, 10 Input “ENTER NEXT”, A A ⇒ L1(I) Next Return Label A VGSCORE Print “A VERAGE IS Median(L1) ⇒ M Print M W ait 3 Return HIST Sequencially input [...]

  • Seite 232

    222 Chapter 14 OPTION Menu The calculator is equipped with OPTION menu f or adjusting the display contr ast, checking memory usage, deleting stored data, transf erring data, and resetting the calculator’ s memor y . Accessing the OPTION Menu Press @ p . The OPTION Menu will appear . A: Adjusts the display contrast B: Checks the memor y usage C: D[...]

  • Seite 233

    223 Chapter 14: OPTION Menu 3. If you w ant check the details, press E . The detailed memor y usage window will appear . The total remaining memory will appear on the bottom line of the screen. 4. Press } to scroll the window . List: The amount of memory (bytes) used by lists Matrix: The amount of memory (bytes) used by matrices Graph Eqn: The amou[...]

  • Seite 234

    224 Chapter 14: OPTION Menu 3. Deleting files Press @ p C to enter the delete menu. The sub-menu items are the same as those of the Memory Check menu (List, Matrix, Graph Eqn, Solv er Eqn, Program, Picture, G_Data, L_Data and Slide). Deletions can be ex ecuted entr y by entry . 1. Press @ p C 2 . The matrix deletion window will appear with the curs[...]

  • Seite 235

    225 Chapter 14: OPTION Menu 2. Press @ p D on both calculators. 3. Press 2 on the receiv- ing machine. The receive mode screen will appear on the displa y . 4. Press 1 on the sending machine. 5. The send menu will appear on the displa y . Specify the data to send from the f ollowing categories. A SELECT Displays the menu windo w to send the data sp[...]

  • Seite 236

    226 Chapter 14: OPTION Menu 6. Select the item to send using { / } and pressing E . A “ ✱ ” will be placed by the selected item. 7. Press @ E to send. 8. T ransmission begins and a b usy message will appear on the displays of the both calculators. • An data in the same memory locations in the receiver will be automatically ov erwritten. •[...]

  • Seite 237

    227 Chapter 14: OPTION Menu • The optional kit CE-LK2 (cable and Windows software) is required f or calculator to data communication with PC. • Ref er to the CE-LK2 operation manual f or details. • During communications between calculator and PC , no opera- tion of the calculator is required. Just connect the cab le and press the power on k e[...]

  • Seite 238

    228 Appendix 1. Replacing Batteries The calculator uses two diff erent kinds of batteries: manganese (AAA) for unit operation, and lithium (CR2032) f or memor y backup . Compatible battery types T ype (use) Model Quantity Manganese battery AAA 4 (f or unit operation) Lithium batter y CR2032 1 (f or memor y backup) *T o pre vent loss of stored data,[...]

  • Seite 239

    229 Appendix Once e ver y 5 y ears, the lithium batter y will need to be replaced. The lithium battery is used to maintain the memor y of the calculator . Note: Do not remov e the lithium batter y while the unit operation batteries are removed; otherwise all the calculator’ s stored memory will be lost. When battery power becomes low , a message [...]

  • Seite 240

    230 Appendix 1. P erf or m procedures 1 and 2, as shown abov e. Do not remov e the unit operation batteries. 2. Remov e the screw and the lithium batter y cov er , as shown. 3. Use a pen to lift the lithium batter y out of the battery compar tment. 4. Inser t the new battery with the PLUS ( + ) side f acing up. 5. Replace the lithium battery cov er[...]

  • Seite 241

    231 Appendix 2. T r oubleshooting Guide Ref er to the list of possible symptoms, and solutions ma y be found here . The calculator’ s power won’t turn on! • The operation batteries ma y not be installed, may be e x- hausted, or ma y be inser ted incorrectly . Check the operation batteries in the batter y compar tment. • Place the batter y c[...]

  • Seite 242

    232 Appendix The screen images cannot be stored (SLIDE SHO W) • The av ailable memory may be too small to store the screen image. Select “B MEMCHK” under @ p men u. Select and delete unnecessary items under “C DEL ” . There appears to be no functions a vailable f or integral/differential calculations! • Make sure that the Adv anced mode[...]

  • Seite 243

    233 Appendix 3. Specifications Model EL-9900 Product name Graphing Calculator Display 132 x 64 dot matrix liquid crystal display Number of digits: mantissa 10 digits, e xponents 2 digits (standard screen); 7 digit displa y (including negatives, decimals) f or table screen, split screen, etc. Mantissa of 10 digits in the comple x number mode Display[...]

  • Seite 244

    234 Appendix List features Direct data entr y/edit to list, calculation function f or various lists, and list/matrix conv ersion. Substitution features Graph drawing, numerical input from split-screen Slide Show f eatures Screen image capture, pla y function The maximum number of pa ges to be captured: Appro x. 250 pages (pages equivalent to the Y [...]

  • Seite 245

    235 Appendix 4. Error Codes and Err or Messages Error Code Description Error Message Syntax Syntax error f ound in equation/program Calculate Calculation-related error f ound (division by 0, calculation bey ond range, etc.) Nesting Cannot nest more than 14 numerical values , or 32 functions during ex ecution. Inv alid Matrix definition error or ent[...]

  • Seite 246

    236 Appendix 38 40 41 42 43 44 45 46 47 48 49 50 51 52 53 70 71 90 99 T oo many obj More than 30 objects selected. Lbl duplicate Labels with identical name f ound in program. Lbl undefined Goto/Gosub encountered with no defined label. Lbl o ver More than 50 labels f ound in program. Gosub stack Nesting of more than 10 subroutines found. Line too lo[...]

  • Seite 247

    237 Appendix 5. Error Conditions Relating to Specific T asks 1. Financial * Define constants “r” and “s” as used in the equation below . r = S = 1 (Pmt_Begin) S = 0 (Pmt_End) ( {} ) ÷ C/Y + 1 – 1 , I (%) 100 C/Y P/Y 1. I% calculation 1 If PMT = 0 r = – 1 - () 1 n - PV FV 2 If PMT ≠ 0 f (r) = PV + (1 + r × s) × PMT × 1 – (1 + r) [...]

  • Seite 248

    238 Appendix 3. FV calculation 1 If r ≠ 0, r > - 1 1 – (1 + r) - n r PV + (1 + r × s) × × PMT (1 + r) - n FV = – 2 If r = 0 FV = - n × PMT – PV 3 If r ≤ - 1 Error 4. PMT calculation 1 If r ≠ 0, r > - 1 1 – (1 + r) - n r PMT = – (1 + r × s) × PV + FV × (1 + r) - n 2 If r = 0 PMT = – PV + FV n 3 If r ≤ - 1 Error 5. N [...]

  • Seite 249

    239 Appendix Calculation result → Xreg Calculation result → Xreg µ : Mean σ : Standard deviation Howe ver : Γ (s) = ∫ ∞ 0 x s – 1 e - x dx 2. Error conditions during financial calculations •r ≤ - 1 •N = 0 in PMT calculations • I% = 0 and PMT = 0, or I% ≠ 0 and FV = (1/r) (1 + r × s) × PMT , in N calculations. s = 1 (Pmt_Beg[...]

  • Seite 250

    240 Appendix 3 pdf χ 2 ( f ( χ 2 , df) = df 2 2 Γ ( ) df 2 – 1 χ 2 2 e ( - ) χ 2 2 ( ) 1 4 pdfF([...]

  • Seite 251

    241 Appendix 6. Calculation Range 1. Arithmetic calculation The results f or dividend, multiplicand and operand are: - 1 × 10 100 < x ≤ - 1 × 10 - 99 , 1 × 10 - 99 < x ≤ 1 × 10 100 or x = 0 (valid within the r ange of display capability) Note: Calculation results and input values less than 1 × 10 - 99 are considered equal to 0. 2. Fu[...]

  • Seite 252

    242 Appendix ln x log x e x 10 x x - 1 x 2 x n! a b (^) b a nPr nCr dec bin oct hex Function Calculation range Notes ln x = log e x e . = . 2.71828... x ≠ 0 n is an integer or integer + 0.5 a b = 10 b·log a b a = 10 1 a log b n and r are positive integers x is an integer 1 × 10 - 99 ≤ x < 1 × 10 100 - 1 × 10 100 < x ≤ 230.2585092 - [...]

  • Seite 253

    243 Appendix Function Calculation range Notes → dms → deg xy → r xy → θ r θ → x r θ → y not neg Statistic calcula- tions r = x 2 + y 2 θ = tan - 1 y x x = r cos θ y = r sin θ The range of θ is the same as x of sin x and cos x Other Boolean operations are the same as not and neg |x| < 1 × 10 100 |x| < 1 × 10 100 , |y| <[...]

  • Seite 254

    244 Appendix Function Calculation range Notes x _ sx σ x r b a y’ x’ Same f or y _ , sy and σ y Regression calcula- tions e xcluding 2nd, 3rd, and 4th degree polynomials. Same as abov e. Same as b f or other . n ≠ 0 n > 1 | Σ x| < 1 × 10 50 0 ≤ ( Σ x) 2 n Σ x 2 – n – 1 < 1 × 10 100 n > 0 | Σ x| < 1 × 10 50 0 ≤ [...]

  • Seite 255

    245 Appendix 3. Comple x number calculation In a comple x number calculation, a calculation error may occur and increase due to inner continuous calculations . Function Calculation range Notes int ÷ remain % → a b/c → b/c List Matrix This is the same when the result of a list function speci- fies 1000 or more elements. 0 ≤ x < 10 10 0 ≤[...]

  • Seite 256

    246 Appendix 7. CA T ALOG Feature Press @ j to displa y the CA T ALOG menu. Y ou can directly access v ar ious f eatures and commands from the CA T ALOG menu. CA T ALOG menu lists are diff erent between the Basic mode and the Adv anced mode. F or e xample, in Program edit mode of the Adv anced mode, you can access the program commands from the CA T[...]

  • Seite 257

    247 Appendix 8. List of Menu/Sub-men u Items CA T ALOG function lets you access almost all the functions and commands . Square brac kets indicate that the value or v ariable is optional. 1. MA TH menus Functions Commands Syntax Ke ystrokes Pag e Advanced mode Basic mode M M M M CALC log 2 log 2 val u e A 0 1 70 2 X 2 val ue A 0 2 71 fmin( fmin( equ[...]

  • Seite 258

    248 Appendix M M M M NUM abs( abs( val u e ) B 1 B 1 73/43 round( round( va lue [, digit number of decimals] ) B 2 B 2 73/44 ipar t ipar t val u e B 3 B 3 73/44 fpar t fpar t val u e B 4 B 4 73/44 int int val u e B 5 B 5 73/44 min( min( va lue A, value B ) or min( list ) B 6 B 6 73/45 max( max( va lue A, value B ) or max( list ) B 7 B 7 73/45 lcm( [...]

  • Seite 259

    249 Appendix 2. LIST menus g val u e g E 5 76 M M M M INEQ = va lue A = va lue B F 1 76 ≠ va lue A ≠ va lue B F 2 76 > va lue A > va lue B F 3 76 ≥ va lue A ≥ va lue B F 4 76 < va lue A < va lue B F 5 76 ≤ va lue A ≤ va lue B F 6 76 M M M M LOGIC and va lue A and va lue B G 1 77 or va lue A or va lue B G 2 77 not not val u e[...]

  • Seite 260

    250 Appendix L2 No arguments A 2 132 L3 No arguments A 3 132 L4 No arguments A 4 132 L5 No arguments A 5 132 L6 No arguments A 6 132 sor tA( sortA( list name [, subordinate list name1, ... , subordinate list name n] ) A 1 B 1 135 sor tD( sortD( list name [, subordinate list name1, ... , subordinate list name n] ) A 2 B 2 135 dim( dim( list ) A 3 B [...]

  • Seite 261

    251 Appendix 3. ST A T menu s @ @ @ @ l l l l { } { No arguments E 1 132 } No arguments E 2 132 Functions Commands Syntax Ke ystrokes Pag e Advanced mode Basic mode S S S S EDIT/OPE EDIT No arguments A E A E 149 sor tA( sortA( list [, subordinate list 1, ... , subordinate list n] ) B 1 B 1 159 sor tD( sortD( list [, subordinate list 1, ... , subord[...]

  • Seite 262

    252 Appendix Rg_ab x Rg_ab x ( list name for x, list name f or y [, frequency list ] [ , equation name to store] ) D 0 9 D 4 161 Rg_ae bx Rg_ae bx ( list name for x, list name f or y [, frequency list ] [ , equation name to store] ) D 1 0 161 Rg_x -1 Rg_x -1 ( list name for x, list name f or y [, frequency list ] [ , equation name to store] ) D 1 1[...]

  • Seite 263

    253 Appendix 4. ST A T PLO T menus cdfnorm( cdfnor m( lower limit, upper limit [,mean, standard deviation] ) F 0 2 177 InvNorm( InvNorm( probability [, mean, standard de viation] ) F 0 3 178 pdfT( pdfT( va lue, degree of freedom ) F 0 4 178 cdfT( cdfT( lower limit, upper limit, degree of freedom ) F 0 5 179 pdf χ 2 ( pdf χ 2 ( va lue, degree of f[...]

  • Seite 264

    254 Appendix 5. DRA W menus Broken + No arguments B 2 B 2 154 Broken No arguments B 3 B 3 154 Norm •_X No arguments C 1 C 1 154 Norm+_X No arguments C 2 C 2 154 Norm _X No arguments C 3 C 3 154 Norm •_Y No arguments C 4 C 4 154 Norm+_Y No arguments C 5 C 5 154 Norm _Y No arguments C 6 C 6 154 NormDis No arguments D 1 D 1 154 Box No arguments E [...]

  • Seite 265

    255 Appendix 6. ZOOM menus Draw Draw equation A 6 A 6 107 Shade( Shade( equation 1, equation 2 [, begin, end] ) A 7 A 7 107 Dr aw In vD rawInv equation A 8 A 8 108 Circle( Circle( x-coordinate of center , y-coordinate of cen- ter , radius ) A 9 A 9 108 Te x t ( T ex t ( column, row , " character strings ") A 0 A 0 109 @ @ @ @ d d d d POIN[...]

  • Seite 266

    256 Appendix In Zm_In No arguments A 3 A 3 54 Out Zm_Out No arguments A 4 A 4 54 Default Zm_Default No arguments A 5 A 5 54 Square Zm_Square No arguments A 6 A 6 54 Dec Zm_Dec No arguments A 7 A 7 54 Int Zm_Int No arguments A 8 A 8 54 Stat Zm_Stat No arguments A 9 A 9 54 Z Z Z Z F A CT OR/PO WER FA CT OR No arguments B E B E 55 x 2 _ Zm_x 2 No argu[...]

  • Seite 267

    257 Appendix 7. CALC menus sin -1 x Zm_sin -1 No arguments E 4 97 cos -1 x Zm_cos -1 No arguments E 5 97 tan -1 x Zm_tan -1 No arguments E 6 97 Z Z Z Z HYP/ST O/RCL sinh x Zm_sinh No arguments F 1 97 cosh x Zm_cosh No arguments F 2 97 tanh x Zm_tanh No arguments F 3 97 sinh -1 x Zm_sinh -1 No arguments F 4 97 cosh -1 x Zm_cosh -1 No arguments F 5 9[...]

  • Seite 268

    258 Appendix 8. SLIDE SHO W menus 9. PRGM menus Functions Commands Syntax Ke ystrokes Pag e Advanced mode Basic mode ] ] ] ] CURR/PLA Y/NEW/SELECT/EDIT CURR No arguments A E A E 118 PLA Y No arguments BB 118 NEW No arguments C E C E 118 SELECT No arguments DD 118 MO VE No arguments E 1 E 1 118 DEL No arguments E 2 E 2 119 RENAME No arguments E 3 E [...]

  • Seite 269

    259 Appendix For F or va ri able, start value, end v alue [, increment] commands Next B 0 7 215 Next B 0 8 215 While While conditional statements commands WEnd B 0 9 215 WEnd B 1 0 215 Gosub Gosub label name B 1 1 216 Return No arguments B 1 2 216 P P P P (in the Pr gramming mode) SCRN ClrT No arguments C 1 209 ClrG No arguments C 2 209 DispT No ar[...]

  • Seite 270

    260 Appendix Decimal No arguments E 1 7 211 Mixed No arguments E 1 8 211 Improp No arguments E 1 9 211 x ± yi No arguments E 2 0 211 r ∠ θ No arguments E 2 1 211 P P P P (in the Pr gramming mode) FORMA T RectCursor No arguments F 0 1 211 Po larCursor No arguments F 0 2 211 ExprON No arguments F 0 3 211 ExprOFF No arguments F 0 4 211 Y'ON N[...]

  • Seite 271

    261 Appendix 10. MA TRIX menus P P P P (in the Pr gramming mode) COPY StoLine No arguments H 1 216 RclLine No arguments H 2 217 Functions Commands Syntax Ke ystrokes Pag e Advanced mode Basic mode @ @ @ @ m m m m NAME mat A No arguments A 1 130 mat B No arguments A 2 130 mat C No arguments A 3 130 mat D No arguments A 4 130 mat E No arguments A 5 1[...]

  • Seite 272

    262 Appendix 11. FINANCE menus augment( augment( matrix name A, matrix name B ) C 0 4 126 identity identity dimension value C 0 5 126 r nd_mat( rnd_mat( number of row , number of column ) C 0 6 126 row_s wap( row_sw ap( matrix name, row number , row number ) C 0 7 127 row_plus( row_plus( matrix name, row number , row number ) C 0 8 127 row_mult( ro[...]

  • Seite 273

    263 Appendix 12. T OOL menu s Irr( Irr( initial inv estment, list of follo wing collected inv estment [, frequency list] [, assumed rev enue rate] ) B 0 7 190 Bal( Bal( number of pa yments [, decimal place to round] ) B 0 8 191 ∑ Prn( ∑ Pr n( initial number of pa yments, end number of payments [, decimal place to round] ) B 0 9 191 ∑ Int( ∑[...]

  • Seite 274

    264 Appendix 13. SOL VER menus 6 No arguments B 6 82 2 No arguments C 2 82 3 No arguments C 3 82 Functions Commands Syntax Ke ystrokes Pag e Adv anced mode Basic mode @ @ @ @ ' ' ' ' (in the Solver mode) METHOD/EQTN/SA VE/RENAME Equation No arguments A 1 194 Newton No arguments A 2 196 Graphic No arguments A 3 198 EQTN No argume[...]

  • Seite 275

    265 Appendix INDEX : (colon) ......................................................... 134, 214 (n-1)-based (Web), sequence ................................ 90 “, PRGM ................................................................ 207 1_Stats, CALC ...................................................... 15 0 2nd Function ke y ...................[...]

  • Seite 276

    266 Appendix CONV ..................................................................... 48 CONV , MA TH ..................................................... 74 Conv ersion ......................................................... 4 8 Conv ersion keys, fr action and decimal .............. 36 Conv ersion, coordinates ................................[...]

  • Seite 277

    267 Appendix F FA CT OR, ZOOM .................................................... 55 F actor ial .................................................................. 48 F actor ial, PROB ................................................. 74 fill(, OPE ....................................................... 125, 136 FINANCE ke y ......................[...]

  • Seite 278

    268 Appendix K Ke y, PRGM ........................................................... 2 08 Ke yboard, changing the ........................................... 9 L Label, BRNCH ...................................................... 214 lcm( ......................................................................... 45 lcm(, NUM .......................[...]

  • Seite 279

    269 Appendix OPE menu, List .................................................... 135 OPE menu, Matrix ............................................ 125 OPE menu, ST A T ............................................. 15 9 Operand, programming ........................................ 206 OPTION ke y .....................................................[...]

  • Seite 280

    270 Appendix RclLD , L_DA T A ..................................................... 143 RclPict, PICT ........................................................ 113 RclWin, ZOOM ....................................................... 56 Real par t, COMPLX ............................................... 79 real(, COMPLX ...............................[...]

  • Seite 281

    271 Appendix SLIDE SHOW ....................................................... 115 SLIDE SHO W key ................................................ 6 SLIDE SHOW men u ......................................... 11 8 slv_FV , CALC ....................................................... 1 89 slv_I%, CALC ...............................................[...]

  • Seite 282

    272 Appendix uw , TYPE ................................................................ 96 V V alue, CALC ........................................................... 60 Va r iable, prog ramming ......................................... 206 Va r iable , store .................................................... 3 8 var ian(, MA TH ..................[...]

  • Seite 283

    This equipment complies with the requirements of Directive 89/336/EEC as amended by 93/68/EEC . Dieses Gerät entspricht den Anforderungen der EG-Richtlinie 89/336/EWG mit Änderung 93/68/EWG. Ce matériel répond aux exigences contenues dans la directiv e 89/336/CEE modifiée par la directive 93/68/CEE. Dit apparaat voldoet aan de eisen v an de ri[...]

  • Seite 284

    EL-9900 MODEL EL-9900 GRAPHING CALCULA TOR GRAPHING CALCULA TOR OPERA TION MANU AL SHARP CORPORA TION 02CGK(TINSE0511EHZZ) PRINTED IN CHINA/IMPRIMÉ EN CHINE/IMPRESO EN CHINA ® ®[...]