Manuel d'utilisation / d'entretien du produit CLASSPAD330PLUS du fabricant Casio
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ClassPad 330 PLUS ClassPad OS Version 3.10 Software User’s Guide CASIO Education website URL http://edu.casio.com ClassPad website URL http://edu.casio.
20110901 Contents About This User ’ s Guide ClassPad Keypad and Icon Panel ..................................................................... 0-1-1 On-screen Keys, Menus, and Other Controllers ................................................ 0-1-2 Page Contents .
20110401 1-8 Using the V ariable Manager ................................................................. 1-8-1 Variable Manager Overview ............................................................................... 1-8-1 Starting Up the Variable Manager .
20110401 3 Contents 2-7 Specifying a Number Base ................................................................... 2-7-1 Number Base Precautions .................................................................................. 2-7-1 Binary, Octal, Decimal, and Hexadecimal Calculation Ranges .
20110401 Chapter 3 Using the Graph & T able Application 3-1 Graph & T able Application Overview ................................................... 3-1-1 Starting Up the Graph & Table Application ...........................................
20110401 Chapter 4 Using the Conics Application 4-1 Conics Application Overview ............................................................... 4-1-1 Starting Up the Conics Application ..................................................................
20110401 Chapter 6 Using the Sequence Application 6-1 Sequence Application Overview .......................................................... 6-1-1 Starting up the Sequence Application ................................................................ 6-1-1 Sequence Application Window .
20110401 Drawing a Power Regression Graph ( y = a · x b ) ................................................ 7-5-12 Drawing a Sinusoidal Regression Graph ( y = a · sin( b·x + c ) + d ) ..................... 7-5-13 Drawing a Logistic Regression Graph ( y = c 1 + a · e –b · x ) .
20110401 8-4 Contr olling Geometry Window Appearance ....................................... 8-4-1 Configuring View Window Settings ..................................................................... 8-4-1 Selecting the Axis Setting ................
20110401 10-5 T ransferring eActivity Files ................................................................ 10-5-1 Transferring eActivity Files between Two ClassPad Units ............................... 10-5-1 Transferring eActivity Files between a ClassPad Unit and a Computer .
20110401 12-5 User -defined Functions ...................................................................... 12-5-1 Creating a New User-defined Function ............................................................ 12-5-1 Executing a User-defined Function .
20110401 13-5 Using the Spreadsheet Application with the eActivity Application........................................................................................... 13-5-1 Drag and Drop ............................................................
20110401 14-6 Configuring Differential Equation Graph View Window P arameters ........................................................................................... 14-6-1 Configuring Differential Equation Graph View Window Settings .............
20110401 13 Contents 15-10 Bond Calculation............................................................................... 15-10-1 Bond Calculation Fields .................................................................................. 15-10-1 Financial Application Default Setup for Examples .
20110401 14 Contents Appendix 1 Character Code T able ............................................................................ α -1-1 2 System V ariab le T able ........................................................................... α -2-1 3 Command and Function Index .
20060301 About This User’ s Guide This section explains the symbols that are used in this user’s guide to represent keys, stylus operations, display elements, and other items you encounter while operating your ClassPad.
20110401 On-screen Ke ys, Menus, and Other Contr ollers 4 Menu bar 4 Menu bar Menu names and commands are indicated in text by enclosing them inside of brackets. The following examples show typical menu operations. Example 1: Tap the O menu and then tap [Keyboard].
20060301 5 T oolbar Toolbar button operations are indicated by illustrations that look like the button you need to tap. Example 1: Tap $ to graph the functions.
20060301 Getting Acquainted 1-1 General Guide 1-2 T urning P ower On and Off 1-3 Using the Icon P anel 1-4 Built-in Applications 1-5 Built-in Application Basic Operations 1-6 Input 1-7 V ariables and .
20110901 1-1 General Guide Front 1-1-1 General Guide Side Back 1 6 7 8 9 2 3 4 5 0 @ # $ = ( ) , (–) xz ^ y 쎹 ÷ − + EXE K eyboar d ON/ OF F Clea r smMrSh 7 4 1 0 8 5 2 9 6 3 .
20060301 General Guide The numbers next to each of the items below correspond to the numbers in the illustration on page 1-1-1. Fr ont 1 T ouch screen The touch screen shows calculation formulas, calculation results, graphs and other information.
20110901 9 Keypad Use these keys to input the values and operators marked on them. See “1-6 Input” for details. 0 E key Press this key to execute a calculation operation or enter a return. Side ! 3-pin data communication port Connect the data communication cable here to communicate with another ClassPad unit or a CASIO Data Analyzer.
20110901 Important! • Be sure that you do not misplace or lose the stylus. Keep the stylus in the holder on the right side of the ClassPad whenever you are not using it. • Do not allow the tip of the stylus to become damaged. Using a stylus with a damaged tip to perform touch screen operations can damage the touch screen.
20110901 1-2 T urning Power On and Off T urning Power On You can turn on the ClassPad either by pressing the o key or by tapping the touch screen with the stylus. • Turning on the ClassPad displays the window that was on the display when you last turned it off.
20110401 1-3 Using the Icon P anel The icon panel of seven permanent icons is located below the touch screen. Tapping an icon executes the function assigned to it.
20060301 T o perform this type of operation: Select this icon: See Chapter: 2 10 7 13 3 6 4 5 8 9 11 12 • Access the eActivity function • General calculations, including function calculations • .
20110901 Starting a Built-in Application Perform the steps below to start a built-in application. u ClassPad Operation (1) On the icon panel, tap m to display the application menu. (2) If you cannot see the icon of the application you want on the menu, tap the scroll buttons or drag the scroll bar to bring other icons into view.
20110401 • Displaying applications according to group (Additional Applications, All Applications) See “Using Application Groups” below. • Moving or swapping icons See “Moving an Icon” below, and “Swapping Two Icons” on page 1-4-4.
20060301 u ClassP ad Operation (1) On the icon panel, tap m to display the application menu. (2) Tap at the top left of the application menu. • This opens a menu of setting options. (3) Tap [Move Icon]. (4) Tap the icon you want to move ( J in this example).
20060301 1-5 Built-in Application Basic Operations This section explains basic information and operations that are common to all of the built-in applications. Application Window The following shows the basic configuration of a built-in application window.
20060301 When using two windows, the currently selected window (the one where you can perform operations) is called the “active window”. The menu bar, toolbar, and status bar contents are all applicable to the active window. The active window is indicated by a thick boundary around it.
20101001 (3) Tap [lim]. • This inputs “lim(”. Example 1: Choosing the [Edit] menu’s [Copy] item u ClassP ad Operation (1) Tap [Edit]. (2) Tap [Copy]. Example 2: Choosing [lim], which is on the [Calculation] submenu of the [Action] menu. u ClassP ad Operation (1) Tap [Action].
20060301 Using the O Menu The O menu appears at the top left of the window of each application, except for the System application. You can access the O menu by tapping s on the icon panel, or by tapping the menu bar’s O menu. k O Menu Items The following describes all of the items that appear on the O menu.
20060301 k Using the O Menu to Access Windows Most ClassPad applications support simultaneous display of two windows. When two windows are on the display, the one with a thick selection boundary around it is the active window. The displayed menu and toolbar are the ones for the currently active window.
20060301 1-5-6 Built-in Application Basic Operations Using Chec k Box es A check box shows the current status of a dialog box option that can be turned on or off. An option is turned on (selected) when its check box has a check mark inside it. An option is turned off when a check box is cleared.
20060301 1-5-7 Built-in Application Basic Operations Using Option Buttons Option buttons are used on dialog boxes that present you with a list of options from which you can select only one. A black option button indicates the currently selected option, while the buttons of the options that are not selected are white.
20060301 Using the T oolbar The toolbar is located directly underneath the menu bar of an application window. It contains the buttons for the currently active window. k T oggling between Multiple T oolbars With some applications, not all of the buttons can fit on a single toolbar.
20110401 Interpreting Status Bar Inf ormation The status bar appears along the bottom of the window of each application. 1 Information about current application Tip • You can change the configuration of a setting indicated in the status bar by tapping it.
20060301 Break dialog box 1-5-10 Built-in Application Basic Operations Example: To pause a graphing operation and then resume it u ClassP ad Operation (1) Use the Graph & Table application to draw a graph. • For details about graphing, see “Chapter 3 – Using the Graph & Table Application”.
20060301 1-6 Input You can input data on the ClassPad using its keypad or by using the on-screen soft keyboard. Virtually all data input required by your ClassPad can be performed using the soft keyboard. The keypad keys are used for input of frequently used data like numbers, arithmetic operators, etc.
20090601 k Soft K eyboar d Styles There are four different soft keyboard styles as described below. • Math (mth) Ke yboard Pressing k will display the keyboard that you last displayed while working in that application. If you quit the application and go into another application, then the 9 (default) soft keyboard appears.
20090601 k Selecting a Soft K eyboar d Style Tap one of the tabs along the top of the soft keyboard ( 9 , 0 , ( , or ) ) to select the keyboard style you want. 1-6-3 Input To display the 2D keyboard Tap here. Input Basics This section includes a number of examples that illustrate how to perform basic input procedures.
20060301 1-6-4 Input Example 2: To simplify 2 (5 + 4) ÷ (23 × 5) u ClassP ad Operation Using the keypad ke ys c2(5+4)/(23*5)E Using the soft keyboar d Tap the keys of the math (mth) keyboard or the 2D keyboard to input the calculation expression.
20060301 u T o delete an unneeded key operation Use d and e to move the cursor to the location immediately to the right of the key operation you want to delete, and then press K .
20060301 u T o inser t new input into the middle of an e xisting calculation expression Use d or e to move the cursor to the location where you want to insert new input, and then input what you want. Example: To change 2.36 2 to sin(2.36 2 ) (1) c 9 c.
20060301 k Using the Clipboar d for Copy and P aste You can copy (or cut) a function, command, or other input to the ClassPad’s clipboard, and then paste the clipboard contents at another location. u T o copy character s (1) Drag the stylus across the characters you want to copy to select them.
20060301 1-6-8 Input u Copying and pasting in the messa g e box The “message box” is a 1-line input and display area under the Graph window (see Chapter 3). You can use the two buttons to the right of the message box to copy the message box contents ( G button), or to paste the clipboard contents to the message box ( H button).
20060301 1-6-9 Input u T key set Tapping the T key displays keys for inputting trigonometric functions, and changes the T softkey to I . You can tap this key to toggle between T and the default 9 keyboard. Tapping the = (hyperbolic) key switches to a key set for inputting hyperbolic functions.
20110401 1-6-10 Input Tip • As its name suggests, a single-character variable is a variable name that consists of a single character like “ a ” or “ x ”.
20060301 • Tap I to return to the initial alphabet (abc) key set. u S key set Use this key set to input punctuation and symbols. Tap the J and K buttons to scroll to additional keys. 1-6-11 Input • Tap I to return to the initial alphabet (abc) key set.
20060301 1-6-12 Input k Using Single-character V ariables As its name suggests, a single-character variable is a variable name that consists of a single character like “ a ” or “ x ”. Input of single-character variable names is subject to different rules than input of a series of multiple characters (like “abc”).
20110401 u T o input a series of multiple character s A series of multiple characters (like “list1”) can be used for variable names, program commands, comment text, etc. Always use the alphabet (abc) keyboard when you want to input a series of characters.
20060301 u Catalog (cat) keyboard configuration 1-6-14 Input This is an alphabetized list of commands, functions, and other items available in the category currently selected with “Form”. Tap the down button and then select the category you want ([Func], [Cmd], [Sys], [User], or [All]) from the list that appears.
20090601 1-6-15 Input k Using the 2D K eyboar d The 2D keyboard provides you with a number of templates that let you input fractions, exponential values, n th roots, matrices, differentials, integrals, and other complex expressions as they appear in your textbook.
20090601 T o input this: Use these keys: For more information, see: Sum of product template “ Π ” under “Using the Calculation Submenu” on page 2-8-15. Differential coefficient template , “diff” under “Using the Calculation Submenu” on page 2-8-13.
20060301 u V key set Tapping the V key displays keys for inputting single-character variables, and changes the V softkey to I . You can tap this key to toggle between V and the initial 2D keyboard. Tapping the E key switches to a key set for inputting upper-case single-character variables.
20060301 1-6-18 Input Tip • If you want your ClassPad to evaluate a calculation expression and display a result in the eActivity application, you must input the calculation in a calculation row. See “Inserting a Calculation Row” on page 10-3-3. Example 2: To input (1) Tap ) to display the 2D keyboard and then tap - .
20060301 1-6-19 Input (4) Tap with the stylus to move the cursor to the other input locations to enter the limits of integration. In the input box above ∫ , tap b . In the input box below ∫ , tap a . (5) After everything is the way you want, press E .
20060301 1-7-1 V ar iables and F olders 1-7 V ariables and Folder s Your ClassPad lets you register text strings as v ar iables . You can then use a variable to store a value, expression, string, list, matrix, etc. A variable can be recalled by a calculation to access its contents.
20110401 k Current Folder The current f older is the folder where the variables created by applications (excluding eActivity) are stored and from which such variables can be accessed. The initial default current folder is the “main” folder. You can also select a user folder you created as the current folder.
20110901 k V ariable Data T ypes ClassPad variables support a number of data types . The type of data assigned to a variable is indicated by a data type name . Data type names are shown on the Variable Manager variable list, and on the Select Data dialog box that appears when you are specifying a variable in any ClassPad application.
20060301 Creating a Folder You can have up to 87 user folders in memory at the same time. This section explains how to create a user folder and explains the rules that cover folder names. You can create a folder using either the Variable Manager or the “NewFolder” command.
20060301 (4) Tap w to execute the command. • The message “done” appears on the display to let you know that command execution is complete. 1-7-5 V ar iables and F olders Tip • You can use the Variable Manager to view the contents of a folder you create.
20060301 k Single-character V ariable Precautions Your ClassPad supports the use of single-character v ar iables , which are variables whose names consist of a single character like “ a ” or “ x ”. Some ClassPad keys ( x , y , Z keypad keys, math (mth) soft keyboard X , Y , Z , [ keys, V key set keys, etc.
20060301 1-7-7 V ar iables and F olders Tip • As shown in the above example, assigning something to a variable with a name that does not yet exist in the current folder causes a new variable with that name to be created.
20060301 1-7-8 V ar iables and F olders k “library” Folder V ariab les Variables in the “library” folder can be accessed without specifying a path name, regardless of the current folder.
20060301 1-7-9 V ar iables and F olders eq2 w Tip • Specifying a variable name that exists in both the current folder and the “library” folder causes the variable in the current folder to be accessed.
20110401 1-7-10 V ar iables and F olders Assigning V alues and Other Data to a System V ariable As its name suggests, a system v ar iable is a variable that is created and used by the system (page 1-7-5). Some system variables allow you to assign values and other data to them, while some system variables do not.
20060301 1-7-11 V ar iables and F olders Rules Go verning V ariab le Access Normally, you access a variable by specifying its variable name. The rules in this section apply when you need to reference a variable that is not located in the current folder or to access a variable that has the same name as one or more variables located in other folders.
20060301 1-8-1 Using the V ar iable Manager 1-8 Using the V ariab le Manager The Variable Manager is a tool for managing user variables, programs, user functions, and other types of data.
20060301 • Tapping a folder name on the folder list selects it. Tapping the folder name again displays the folder’s contents; a variable list. Current folder Folder names Number of variables conta.
20060301 V ariable Manager Folder Operations This section describes the various folder operations you can perform using the Variable Manager. k Specifying the Current Folder The “current folder” is the folder where the variables created by applications (excluding eActivity) are stored and from which such variables can be accessed.
20060301 k Selecting and Deselecting Folder s The folder operations you perform are performed on the currently selected folders. The folders that are currently selected on the folder list are those whose check boxes are selected (checked). You can use the following operations to select and deselect folders as required.
20060301 1-8-5 Using the V ar iable Manager • You cannot delete the “library” folder or the “main” folder. • If no check box is currently selected on the folder list, the folder whose name is currently highlighted on the list is deleted when you tap [Edit] and then [Delete].
20060301 k Inputting a Folder Name into an Application Perform the procedure below when you want to input the name of a folder displayed on the Variable Manager window into the application from which you started up the Variable Manager.
20060301 V ariable Operations This section explains the various operations you can perform on the Variable Manager variables. k Opening a Folder Perform the steps below to open a folder and display the variables contained inside it. u ClassP ad Operation (1) Start up the Variable Manager and display the folder list.
20060301 1-8-8 Using the V ar iable Manager (3) On the dialog box, tap the down arrow button and then select the data type from the list that appears. • To display variables for all data types, select [All]. • For details about data type names and variables, see “Variable Data Types” on page 1-7-3.
20060301 1-8-9 Using the V ar iable Manager k Deleting a V ariable Perform the following steps when you want to delete a variable. u ClassP ad Operation (1) Open the folder that contains the variable you want to delete and display the variable list. (2) Select the check box next to the variable you want to delete.
20060301 Tip • If no check box is currently selected on the variable list, the variable whose name is currently highlighted on the list is copied or moved. • If a variable with the same name already exists in the destination folder, the variable in the destination folder is replaced with the one that you are copying or moving.
20060301 1-8-11 Using the V ar iable Manager u T o unlock a v ariable (1) Open the folder that contains the variable you want to unlock and display the variable list. (2) Select the check box next to the variable you want to unlock. (3) Tap [Edit] and then [Unlock].
20060301 1-8-12 Using the V ar iable Manager Example of EXPR variable contents k Vie wing the Contents of a V ariab le You can use the Variable Manager to view the contents of a particular variable. u ClassP ad Operation (1) Open the folder that contains the variable whose contents you want to view and display on the variable list.
20060301 1-8-13 Using the V ar iable Manager k Inputting a V ariable Name into an Application Perform the procedure below when you want to input the name of a variable from the Variable Manager window into the application from which you started up the Variable Manager.
20060301 1-9 Configuring Application Format Settings The O menu includes format settings for configuring the number of calculation result display digits and the angle unit, as well as application-specific commands. The following describes each of the settings and commands that are available on the O menu.
20060301 Specifying a V ariab le Certain settings require that you specify variables. If you specify a user-stored variable when configuring the setting of such an item, you must specify the folder where the variable is stored and the variable name.
20060301 (7) Tap [Set] to save your settings. Initializing All Application Format Settings Perform the following procedure when you want to return all application format settings to their initial defaults. u ClassP ad Operation (1) Tap O , or tap s on the icon panel, and then tap [Default Setup].
20101001 1-9-4 Configuring Application Format Settings Application Format Settings This section provides details about all of the settings you can configure using the application format settings. The following two points apply to all of the dialog boxes.
20101001 1-9-5 Configuring Application Format Settings u Number Format T o specify this type of numeric value displa y format: Select this setting: Auto exponential display for values less than 10 –.
20101001 k Graph Format Dialog Bo x Use the Graph Format dialog box to configure settings for the Graph window and for drawing graphs. 1-9-6 Configuring Application Format Settings Basic T ab u Axes T.
20101001 T o do this: Do this: Turn off display of graph controller arrows during graphing Clear the [G-Controller] check box.* Draw graphs with plotted points Select the [Draw Plot] check box. Draw graphs with solid lines Clear the [Draw Plot] check box.
20101001 1-9-8 Configuring Application Format Settings u Coordinates T o do this: Select this setting: Display coordinate values using rectangular coordinates Rectangular* Display coordinate values us.
20101001 1-9-9 Configuring Application Format Settings • The above is the same as the [G-Controller] setting on the Graph Format dialog box. u G-Controller T o do this: Do this: Turn on display of graph controller arrows during graphing Select the [G-Controller] check box.
20101001 1-9-10 Configuring Application Format Settings u Function Angle T o specify the angle unit for graphing: Select this setting: Radian Radian* Degree Degree Grad Grad u Axes T o set the initial.
20101001 1-9-11 Configuring Application Format Settings k Ad v anced Format Dialog Bo x Use the Advanced Format dialog box to configure settings for Fourier transform and FFT settings.
20110401 1-9-12 Configuring Application Format Settings k Financial Format Dialog Bo x Use the Financial Format dialog box to configure settings for the Financial application.
20060301 1-9-13 Configuring Application Format Settings Special T ab u Odd Period T o do this: Select this setting: Specify compound interest for odd (partial) months Compound (CI) Specify simple inte.
20060301 1-9-14 Configuring Application Format Settings k Presentation Dialog Bo x Use the Presentation dialog box to configure settings for the Presentation application.
20110401 1-9-15 Configuring Application Format Settings k Comm unication Dialog Box Use the Communication dialog box to configure communication settings. For full details about the Communication application, see Chapter 2 in the separate Hardware User’s Guide.
20060301 2 Using the Main Application The Main application is a general-purpose numerical and mathematical calculation application that you can use to study mathematics and solve mathematical problems.
20060301 2-1-1 Main Application Ov er view 2-1 Main Application Overview This section provides information about the following. • Main application windows • Modes that determine how calculations a.
20090601 • Basic Main application operations consist of inputting a calculation expression into the work area and pressing E . This performs the calculation and then displays its result on the right side of the work area.
20060301 T o do this: Select this menu item: Undo the last operation or redo an operation that was just undone Edit - Undo/Redo Cut the selected character string and place it onto the clipboard Edit -.
20060301 Using Main Application Modes The Main application has a number of different modes that control how calculation results are displayed, as well as other factors.
20060301 Accessing ClassP ad Application Windows fr om the Main Application Tapping the down arrow button on the toolbar displays a palette of 15 icons that you can use to access certain windows of other ClassPad applications.
20060301 • You can perform drag and drop operations with expressions between the Main application work area and the currently displayed window. For example, you could drag an expression from the Main application work area to the Graph window, and graph the expression.
20060301 2-2-1 Basic Calculations 2-2 Basic Calculations This section explains how to perform basic mathematical operations in the Main application. Arithmetic Calculations and P arentheses Calculations • You can perform arithmetic calculations by inputting expressions as they are written.
20060301 2-2-2 Basic Calculations Using the e Key Use the e key to input exponential values. You can also input exponential values using the E key on the 9 and ) keyboards. Examples: 2.54 × 10 3 = 2540 c.fe e d w 1600 × 10 –4 = 0.16 bgaaE-e w Omitting the Multiplication Sign You can omit the multiplication sign in any of the following cases.
20060301 2-2-3 Basic Calculations Tip • The “ans” variable is a system variable. For details about system variables, see “1-7 Variables and Folders”. • Since “ans” is a variable name, you can specify the “ans” variable by inputting [a][n][s] on the 0 (alphabet) keyboard, or by tapping the D key on the 9 or the ) keyboard.
20110401 Calculation Err or An error message dialog box, like the one shown below, appears when there is a problem with the syntax of an input expression or value, when the number of decimal places of a calculation result in the Standard mode (page 2-2-6) exceeds a specified range, etc.
20060301 Calculation Priority Sequence Your ClassPad automatically performs calculations in the following sequence. 1 Commands with parentheses (sin(, diff(, etc.) 2 Factorials ( x ! ), degree specifications ( o , r ), percents (%) 3 Powers 4 π , memory, and variable multiplication operations that omit the multiplication sign (2 π , 5A, etc.
20060301 Calculation Modes The Main application has a number of different modes, as described under “Using Main Application Modes” on page 2-1-4. The display format of calculation results depends on the currently selected Main application mode.
20090601 u Using the u Button to T oggle between the Standard Mode and Decimal Mode You can tap u to toggle a displayed value between Standard mode and Decimal mode format. Note that tapping u toggles the format of a displayed value. It does not change the current Standard mode/Decimal mode setting.
20110401 u Examples of Complex mode and Real mode calculation results Expression Complex Mode Real Mode solve ( x 3 – x 2 + x – 1 = 0, x ){ x = – i , x = i , x = 1} { x = 1} i + 2 i 3· i ERROR:.
20060301 2-3 Using the Calculation History The Main application work area calculation history can contain up to 30 expression/result pairs. You can look up a previous calculation, edit, and then re-calculate it, if you want. Viewing Calculation History Contents Use the scroll bar or scroll buttons to scroll the work area window up and down.
20060301 Re-calculating an Expression You can edit a calculation expression in the calculation history and then re-calculate the resulting expression. Tapping w re-calculates the expression where the cursor is currently located, and also re-calculates all of the expressions below the current cursor location.
20060301 Example 2: To change from the Standard mode to the Decimal mode (page 2-2-6), and then re-calculate u ClassP ad Operation (1) Move the cursor to the location from which you want to re-calculate. • In this example, we will tap the end of line 2 to locate the cursor there.
20060301 Deleting P ar t of the Calculation Histor y Contents You can use the following procedure to delete an individual two-line expression/result unit from the calculation history. u ClassP ad Operation (1) Move the cursor to the expression line or result line of the two-line unit you want to delete.
20060301 2-4-1 Function Calculations 2-4 Function Calculations This section explains how to perform function calculations in the Main application work area. • Most of the operators and functions described in this section are input from the 9 (math) and ( (catalog) keyboard.
20060301 k T rigonometric Functions (sin, cos, tan) and In verse T rigonometric Functions (sin –1 , cos –1 , tan –1 ) The first four examples below use “Degree” (indicated by “Deg” in the status bar) as the angle unit setting. The final example uses “Radian” (indicated by “Rad”).
20060301 k Logarithmic Functions (log, ln) and Exponential Functions ( e , ^, k ) Prob lem Use this keyboard: Operation mth abc cat 2D log1.23 (log 10 1.23) = 0.08990511144 Func l 1.23 w or )V 10 e 1.23 w ln90 (log e 90) = 4.49980967 Func I 90 w or )V0 n e e 90 w log 3 9 = 2 Func l 3 , 9 w or )V 3 e 9 w 10 1.
20060301 k Hyperbolic Functions (sinh, cosh, tanh) and In verse Hyperbolic Functions (sinh –1 , cosh –1 , tanh –1 ) Prob lem Use this keyboard: Operation mth abc cat 2D sinh3.6 = 18.28545536 TRIG Func = 1 3.6 w cosh1.5 – sinh1.5 = 0.2231301601 TRIG Func = 2 1.
20110401 k Other Functions (%, , x 2 , x –1 , x !, abs, ⬔ , signum, int, frac, intg, fRound, sRound) Prob lem Use this keyboard: Operation mth abc cat 2D What is 12% of 1500? 180 SMBL Cmd 1500 * 1.
20090601 Prob lem Use this keyboard: Operation mth abc cat 2D What is the sign of –3.4567? –1 (signum returns –1 for a negative value, 1 for a positive value, “Undefined” for 0, and A ⎜ A ⎟ for an imaginary number.) Func [signum] - 3.4567 w What is the integer part of –3.
20090601 u “rand” Function • The “rand” function generates random numbers. If you do not specify an argument, “rand” generates 10-digit decimal values 0 or greater and less than 1. Specifying two integer values for the argument generates random numbers between them.
20090601 2-4-8 Function Calculations Description: • “ n ” must be a positive integer, and “ ” must be greater than 0. Prob lem Use this keyboard: Operation mth abc cat 2D Randomly produc.
20090601 u “RandSeed” Command • You can specify an integer from 0 to 9 for the argument of this command. 0 specifies non- sequential random number generation. An integer from 1 to 9 uses the specified value as a seed for specification of sequential random numbers.
20090601 Prob lem Use this keyboard: Operation mth abc cat 2D Determine the greatest common divisors of {4, 3}, {12, 6}, and {36, 9}. Func [iGcd] { 4 , 3 } , { 12 , 6 } , { 36 , 9 } ) w u “iLcm” Function Syntax: iLcm(Exp-1, Exp-2[, Exp-3…Exp-10)] (Exp-1 through Exp-10 all are integers.
20090601 Prob lem Use this keyboard: Operation mth abc cat 2D Divide 21 by 6 and 7, and determine the remainder of both operations. (iMod(21, {6, 7}) Func [iMod] 21 , { 6 , 7 } ) w k P ermutation ( n .
20090601 2-4-12 Function Calculations k Condition J udgment (judg e, piecewise) u “judge” Function The “judge” function returns TRUE when an expression is true, and FALSE when it is false.
20090601 k Angle Symbol ( ∠ ) Use this symbol to specify the coordinate format required by an angle in a vector. You can use this symbol for a vector only. Prob lem Use this keyboard: Operation mth abc cat 2D Convert the polar coordinates r = 2 , θ = π /4 to rectangular coordinates.
20090601 2-4-14 Function Calculations k Equal Symbols and Unequal Symbols ( = , ≠ , < , > , , > ) You can use these symbols to perform a number of different basic calculations. Prob lem Use this keyboard: Operation mth abc cat 2D To add 3 to both sides of x = 3.
20090601 2-4-15 Function Calculations k Solutions Suppor ted by ClassP ad (TR UE, F ALSE, Undefined, No Solution, ∞ , const, constn) Solution Description Example TRUE Output when a solution is true. judge (1 = 1) w FALSE Output when a solution is false.
20090601 k Dirac Delta Function “delta” is the Dirac Delta function. The delta function evaluates numerically as shown below. 0, x ≠ 0 δ ( x ) = { δ ( x ), x = 0 Non-numeric expressions passed to the delta function are left unevaluated. The integral of a linear delta function is a Heaviside function.
20090601 k Hea viside Unit Step Function “heaviside” is the command for the Heaviside function, which evaluates only to numeric expressions as shown below.
20110901 k Gamma Function The Gamma function is called “gamma” on the ClassPad. ∫ + ∞ 0 t x –1 e – t dt Γ ( x ) = For an integer n the gamma is evaluated as shown below. ( n – 1) !, n > 0 Γ ( n ) = { undefined , n < 0 The gamma is defined for all real numbers excluding zero and negative integers.
20060301 2-5-1 List Calculations 2-5 List Calculations This section explains how to input data using the Main application or Stat Editor, and how to perform basic list calculations. Inputting List Data You can input list data from the work area or on the Stat Editor window.
20060301 k LIST V ariable Element Operations You can recall the value of any element of a LIST variable. When the values {1, 2, 3} are assigned to “lista”, for example, you can recall the second value in the “lista”, when you need it. You can also assign a value to any element in a list.
20060301 Using a List in a Calculation You can perform arithmetic operations between two lists, between a list and a numeric value, or between a list and an expression, equation, or inequality.
20060301 2-5-4 List Calculations Using a List to Assign Different V alues to Multiple V ariab les Use the procedure in this section when you want to use a list to assign various different values to multiple variables.
20060301 2-6 Matrix and V ector Calculations This section explains how to create matrices in the Main application, and how to perform basic matrix calculations. Tip • Since a vector can be viewed as 1-row by n -column matrix or n -row by 1-column matrix, this section does not include explanations specifically about vectors.
20060301 k Matrix V ariable Element Operations You can recall the value of any element of a MATRIX variable. When the data 1 2 3 4 is assigned to matrix “mat1”, for example, you can recall the element located at row 2, column 1. You can also assign a value to any element in a matrix.
20060301 k Inputting Matrix V alues with the ) K eyboar d The 6 , 7 , and 8 keys of the ) keyboard make matrix value input quick and easy. T o do this: T ap this 2D key: Create a new 1-row × 2-column.
20060301 Tip • In step (1) of the above procedure, we added rows and columns as they became necessary. Another way to accomplish the same result would be to add rows and columns to create a blank matrix of the required dimensions, and then start data input.
20060301 (3) Tap 8 , and then input the values for the second matrix. 2-6-5 Matrix and V ector Calculations Example 3: To multiply the matrix 1 2 3 4 by 5 u ClassP ad Operation (1) Perform the key operation below in the Main application work area. 9 [[b,c][d,e]]*f (2) Tap w .
20060301 2-6-6 Matrix and V ector Calculations k Raising a Matrix to a Specific P o wer Example: To raise 1 2 3 4 to the power of 3 Use the procedures described under “Matrix Addition, Subtraction, Multiplication, and Division” on page 2-6-4 to input the calculation.
20101001 2-7 Specifying a Number Base While using the Main application, you can specify a default number base (binary, octal, decimal, hexadecimal) or you can specify a number base for a particular integer value. You can also convert between number bases and perform bitwise operations using logical operators (not, and, or, xor).
20060301 • The following are the calculation ranges for each of the number bases. Binary Values: Positive: 0 x 01111111111111111111111111111111 Negative: 10000000000000000000000000000000 x 111111111.
20060301 Selecting a Number Base Specifying a default number base in the Main application will apply to the current line (expression/result pair), and to all subsequent lines until you change the default number base setting. Use the number toolbar’s base buttons to specify the number base.
20060301 • Whenever you input a value into a line for which a number base is specified, the input value is converted automatically to the specified number base.
20060301 Bitwise Operations The logical operators listed below can be used in calculations. Operator Description and Returns the result of a bitwise product. or Returns the result of a bitwise sum. xor Returns the result of a bitwise exclusive logical sum.
20080201 2-8-1 Using the Action Menu 2-8 Using the Action Menu The [Action] menu helps to make transformation and expansion functions, calculus functions, statistical functions, and other frequently used mathematical menu operations easier to use.
20080201 2-8-2 Using the Action Menu Example Screenshots The screenshots below show examples of how input and output expressions appear on the ClassPad display. In some cases, the input expression and output expression (result) may not fit in the display area.
20101001 Displa ying the Action Menu Tap [Action] on the menu bar to display the submenus shown below. 2-8-3 Using the Action Menu The following explains the functions that are available on each of these submenus.
20060301 u simplify Function: Simplifies an expression. Syntax: simplify (Exp/Eq/Ineq/List/Mat [ ) ] • Ineq (inequality) includes the “ ≠ ” (not equal to) relational operator.
20080201 2-8-5 Using the Action Menu u rF actor Function: Factors an expression up to its roots, if any. Syntax: rFactor (Exp/Eq/Ineq/List/Mat [ ) ] • Ineq (inequality) includes the “ ≠ ” (not equal to) relational operator.
20080201 2-8-6 Using the Action Menu u tExpand Function: Employs the sum and difference formulas to expand a trigonometric function. Syntax: tExpand(Exp/Eq/Ineq/List/Mat [ ) ] • Ineq (inequality) includes the “ ≠ ” (not equal to) relational operator.
20080201 2-8-7 Using the Action Menu u pr opFrac Function: Transforms a decimal value into its equivalent proper fraction value. Syntax: propFrac (Exp/Eq/Ineq/List/Mat [ ) ] • Ineq (inequality) includes the “ ≠ ” (not equal to) relational operator.
20101001 Using the Adv anced Submenu u solve For information about solve, see page 2-8-43. u dSolve For information about dSolve, see page 2-8-44. u ta ylor Function: Finds a Taylor polynomial for an expression with respect to a specific variable.
20080201 ClassPad supports transform of the following functions. sin( x ), cos( x ), sinh( x ), cosh( x ), x n , x , e x , heaviside( x ), delta( x ), delta( x , n ) ClassPad does not support transform of the following functions.
20080201 The values of a and b depend on the scientific discipline, which can be specified by the value of n (optional fourth parameter of Fourier and invFourier) as shown below.
20080201 2-8-11 Using the Action Menu u FFT , IFFT Function: “ FFT ” is the command for the fast Fourier Transform, and “ IFFT ” is the command for the inverse fast Fourier Transform. 2 n data values are needed to perform FFT and IFFT. On the ClassPad, FFT and IFFT are calculated numerically.
20101001 2-8-12 Using the Action Menu Using the Calculation Submenu The [Calculation] submenu contains calculus related commands, such as “diff” (differentiation) and “ ” (integration). Unfortunately, a number of conventions are in widespread use for a and b .
20090601 2-8-13 Using the Action Menu u impDiff Function: Differentiates an equation or expression in implicit form with respect to a specific variable.
20080201 2-8-14 Using the Action Menu u ∫ Function: Integrates an expression with respect to a specific variable. Syntax: (Exp/List[,variable] [ ) ] (Exp/List, variable, lower limit, upper limit [, tol ] [ ) ] • “ x ” is the default when you omit [,variable].
20080201 2-8-15 Using the Action Menu u Σ Function: Evaluates an expression at discrete variable values within a range, and then calculates a sum. Syntax: Σ (Exp/List, variable, lower value, upper value [ ) ] Example: To calculate the sum of x 2 as the value of x changes from x = 1 through x =10.
20080201 2-8-16 Using the Action Menu u normal Function: Returns the right side of the equation for the line normal ( y = ‘expression’) to the curve at the specified point.
20080201 2-8-17 Using the Action Menu Example: To find the minimum point of x 2 – 1 with respect to x , when 2 < x < 3 Menu Item: [Action][Calculation][fMin] Example: To find the minimum point.
20080201 2-8-18 Using the Action Menu u gcd Function: Returns the greatest common denominator of two expressions. Syntax: gcd (Exp/List-1, Exp/List-2 [ ) ] Example: To obtain the greatest common denom.
20110501 2-8-19 Using the Action Menu u arg Function: Returns the argument of a complex number. Syntax: arg (Exp/Eq/List/Mat [ ) ] Example: To obtain the argument of complex 2 + i (in the Radian mode) Menu Item: [Action][Complex][arg] u lcm Function: Returns the least common multiple of two expressions.
20110901 2-8-20 Using the Action Menu u conjg Function: Returns the conjugate complex number. Syntax: conjg (Exp/Eq/List/Mat [ ) ] • An inequality with the “ ⫽ ” (not equal to) relation symbol is also included (only in the Real mode).
20110901 2-8-21 Using the Action Menu Example: To transform 1 + i into its polar form Menu Item: [Action][Complex][compToPol] Radian mode Degree mode Grad mode u compT oT rig Function: Transforms a complex number into its trigonometric/hyperbolic form.
20080201 2-8-22 Using the Action Menu u seq Function: Generates a list in accordance with a numeric sequence expression. Syntax: seq (Exp, variable, start value, end value [,step size] [ ) ] Example: .
20080201 u subList Function: Extracts a specific section of a list into a new list. Syntax: subList (List [,start number] [,end number] [ ) ] Example: To extract the second through the fourth elements.
20101001 2-8-24 Using the Action Menu u sor tD Function: Sorts the elements of the list into descending order. Syntax: sortD (List [ ) ] Example: To sort the elements of the list {1, 5, 3} into descending order Menu Item: [Action][List-Create][sortD] u listT oMat Function: Transforms lists into a matrix.
20060301 u min Function: Returns the minimum value of an expression or the elements in a list. Syntax: min (Exp/List-1[, Exp/List-2] [ ) ] Example: To determine the minimum values of the elements in l.
20060301 Example: To determine the mean of the elements in the list {1, 2, 3}, whose respective frequencies are {3, 2, 1} Menu Item: [Action][List-Calculation][mean] u median Function: Returns the median of the elements in a list. Syntax: median (List-1[, List-2] [ ) ] • “List-2” specifies the frequency of each element in “List-1”.
20101001 u Q 1 Function: Returns the first quartile of the elements in a list. Syntax: Q 1 (List-1[, List-2] [ ) ] • “List-2” specifies the frequency of each element in “List-1”.
20060301 u v ariance Function: Returns the sample variance of the elements in a list. Syntax: variance (List [ ) ] Example: To determine the sample variance of the elements in the list {1, 2, 4} Menu Item: [Action][List-Calculation][variance] u dim Function: Returns the dimension of a list.
20060301 2-8-29 Using the Action Menu u cuml Function: Returns the cumulative sums of the elements in a list. Syntax: cuml (List [ ) ] Example: To determine the cumulative sums of the elements in the .
20060301 2-8-30 Using the Action Menu u sequence Function: Returns the lowest-degree polynomial that represents the sequence expressed by the input list. When there are two lists, this command returns a polynomial that maps each element in the first list to its corresponding element in the second list.
20101001 2-8-31 Using the Action Menu Using the Matrix-Create Submenu The [Matrix-Create] submenu contains commands related to creation of matrices. u trn Function: Returns a transposed matrix.
20060301 2-8-32 Using the Action Menu u fill Function: Creates a matrix with a specific number of rows and columns, or replaces the elements of a matrix with a specific expression.
20101001 u matT oList Function: Transforms a specific column of a matrix into a list. Syntax: matToList (Mat, column number [ ) ] Example: To transform column 2 of the matrix [[1, 2] [3, 4]] into a li.
20060301 u norm Function: Returns the Frobenius norm of the matrix. Syntax: norm (Mat [ ) ] Example: To determine the norm of the matrix [[1, 2] [4, 5]] Menu Item: [Action][Matrix-Calculation][norm] u rank Function: Finds the rank of matrix.
20060301 2-8-35 Using the Action Menu u eigVc Function: Returns a matrix in which each column represents an eigenvector of a square matrix. • Since an eigenvector usually cannot be determined uniquely, it is standardized as follows to its norm, which is 1: When V = [ x 1, x 2, .
20060301 2-8-36 Using the Action Menu u QR Function: Returns the QR decomposition of a square matrix. Syntax: QR (Mat, qVariableMem, rVariableMem [ ) ] Example: To obtain the QR decomposition of the matrix [[1, 2] [3, 4]] • The unitary matrix is assigned to variable Q, while the upper triangular matrix is assigned to variable R.
20060301 u mRowAd d Function: Multiplies the elements of a specific row in a matrix by a specific expression, and then adds the result to another row. Syntax: mRowAdd (Exp, Mat, row number-1, row numb.
20101001 2-8-38 Using the Action Menu u colNorm Function: Calculates the sums of the absolute values of the elements of each column of a matrix, and returns the maximum value of the sums.
20060301 u augment Function: Returns an augmented vector [Mat-1 Mat-2]. Syntax: augment (Mat-1, Mat-2 [ ) ] Example: To augment vectors [1, 2] and [3, 4] Menu Item: [Action][Vector][augment] u fill Function: Creates a vector that contains a specific number of elements, or replaces the elements of a vector with a specific expression.
20060301 u angle Function: Returns the angle formed by two vectors. Syntax: angle (Mat-1, Mat-2 [ ) ] • This command can be used with a 1 × N or N × 1 matrix only. Example: To determine the angle formed by vectors [1, 2] and [3, 4] (in the Radian mode) Menu Item: [Action][Vector][angle] u norm Function: Returns the norm of a vector.
20060301 u toRect Function: Returns an equivalent rectangular form [ x y ] or [ x y z ]. Syntax: toRect (Mat [,natural number] [ ) ] • This command can be used with a 1 × N or N × 1 matrix only (N = 2, 3).
20101001 u toCyl Function: Returns an equivalent cylindrical form [ r ∠ θ z ]. Syntax: toCyl (Mat [,natural number] [ ) ] • This command can be used with a 1 × 3 or 3 × 1 matrix only. • This command returns “ r ” when “natural number” is 1, “ θ ” when “natural number” is 2, and “ z ” when “natural number” is 3.
20090601 2-8-43 Using the Action Menu u solve Function: Returns the solution of an equation or inequality. Syntax: solve(Exp/Eq/Ineq [,variable] [ ) ] • For this syntax, “Ineq” also includes the ⫽ operator. • “ x ” is the default when you omit “[,variable]”.
20090601 2-8-44 Using the Action Menu Note For the solution, the solve function returns an expression or value for the expression (Exp/Eq) input as its argument. The message “More solutions may exist” will appear on the display when a value is returned as the solution, because there may be multiple solutions.
20090601 2-8-45 Using the Action Menu u exc hang e Function: Swaps the right-side and left-side elements of an equation or inequality. Syntax: exchange(Eq/Ineq/List [ ) ] • Ineq (inequality) includes the “ ≠ ” (not equal to) relational operator.
20090601 2-8-46 Using the Action Menu u getLeft Function: Extracts the left-side elements of an equation or inequality. Syntax: getLeft(Eq/Ineq/List [ ) ] • Ineq (inequality) includes the “ ≠ ” (not equal to) relational operator.
20101001 2-8-47 Using the Action Menu Using the Assistant Submenu The [Assistant] submenu contains two commands related to the Assistant mode. • Note that the following commands are valid in the Assistant mode only. For more information on the Assistant mode see “Assistant Mode and Algebra Mode” on page 2-2-8.
20101001 2-8-48 Using the Action Menu u Clear_a_z Function: Clears all single-character variable names (a-z and A-Z) in the current folder. Using the Distrib ution and In v . Distribution Submen us The [Distribution] and [Inv. Distribution] submenus include functions related to each type of statistical calculation distribution probability.
20090601 normPDf({1, 2},{1, 2}, 0) = {0.24, 0.12} normPDf({1, 2},{1, 2},{1, 0}) = {0.40, 0.12} The following explains how to specify list data in arguments and how calculation results are output.
20090601 u normCDf Function: Returns the cumulative probability of a normal distribution between a lower bound and an upper bound. Syntax: normCDf(lower value, upper value[, σ , μ )] • When σ and μ are skipped, σ = 1 and μ = 0 are used.
20090601 u tCDf Function: Returns the cumulative probability of a Student- t distribution between a lower bound and an upper bound. Syntax: tCDf(lower value, upper value, df [ ) ] Example: To determine the Student- t distribution probability when lower value = 1.
20090601 2-8-52 Using the Action Menu Menu Item: [Action][Inv. Distribution][invChiCDf] For more information, see “Inverse χ 2 Cumulative Distribution” on page 7-11-10. u fPDf Function: Returns the F probability density for a specified value. Syntax: fPDf( x , n : df , d : df [ ) ] Example: To determine the F probability density when x = 1.
20090601 u binomialCDf Function: Returns the cumulative probability in a binomial distribution that the success will occur between specified lower value and upper value.
20090601 u poissonPDf Function: Returns the probability in a Poisson distribution that the success will occur on a specified trial. Syntax: poissonPDf( x , [ ) ] Example: To determine the Poisson .
20090601 Example: To determine the minimum number of trials when pr ob = 0.8074, = 2.26 Menu Item: [Action][Inv. Distribution][invPoissonCDf] For more information, see “Inverse Poisson Cumulative Distribution” on page 7-11-19.
20090601 The calculation results of invGeoCDf are integers. Accuracy may be reduced when the first argument has 10 or more digits. Note that even a slight difference in calculation accuracy affects calculation results. If a warning message appears, check the displayed values.
20101001 The calculation results of invHypergeoCDf are integers. Accuracy may be reduced when the first argument has 10 or more digits. Note that even a slight difference in calculation accuracy affects calculation results. If a warning message appears, check the displayed values.
20110401 Simple Interest For the meaning of each argument, see “Simple Interest” (page 15-2-1). u simpInt Function: Returns the interest based on simple interest calculation.
20101001 u cmpdN Function: Returns the number of compound periods. Syntax: cmpdN ( I %,PV,PMT,FV,P/Y,C/Y) Example: cmpdN (6,−1000,0,120,1,1) Menu Item: [Action][Financial][Compound Interest][cmpdN] u cmpdPmt Function: Returns equal input/output values (payment amounts for installment payments, deposit amounts for savings) for a fixed period.
20101001 u cashNFV Function: Returns the net future value. Syntax: cashNFV ( I %,Cash) Example: list1 = {0,100,200,300,400,500} cashNFV (10,list1) Menu Item: [Action][Financial][Cash Flow][cashNFV] u cashNPV Function: Returns the net present value.
20101001 u amor tInt Function: Returns the interest paid for payment PM1. Syntax: amortInt (PM1,PM2, I %,PV,PMT,P/Y,C/Y) Example: amortInt (10,15,8.025,100000,−837.9966279,12,12) Menu Item: [Action][Financial][Amortization][amortInt] u amor tPrn Function: Returns the principal and interest paid for payment PM1.
20101001 Interest Con version For the meaning of each argument, see “Interest Conversion” (page 15-6-1). u con vEff Function: Returns the interest rate converted from the nominal interest rate to the effective interest rate.
20110401 u priceMargin Function: Returns the margin based on a specified cost and selling price. Syntax: priceMargin (Cost,Sell) Example: priceMargin (40,100) Menu Item: [Action][Financial][Cost/Sell/Margin][priceMargin] Da y Count For the meaning of each argument, see “Day Count” (page 15-8-1).
20110401 u bondYieldDate Function: Returns the yield based on specified conditions. Syntax: bondYieldDate (MM1,DD1,YYYY1,MM2,DD2,YYYY2,RDV,CPN,PRC) Example: bondYieldDate (6,1,2004,12,15,2006,100,3,−97.
20060301 (3) Tap [Interactive], [Transformation], and then [factor]. • This factorizes the selected expression. 2-9 Using the Interactive Menu The [Interactive] menu includes most of the commands that are on the [Action] menu. Selecting a command on the [Action] menu will simply execute the command.
20060301 2-9-2 Using the Interactiv e Menu u T o factoriz e from the Action men u (1) Tap [Action], [Transformation], and then [factor]. • This inputs “factor(” into the work area. (2) Input the expression you want to factorize ( x 3 – 3 x 2 + 3 x – 1).
20060301 (4) On the dialog box, tap “Definite integral” to select it. • This displays boxes for specifying the variable and the lower limit and the upper limit. 2-9-3 Using the Interactiv e Menu (5) Input the required data for each of the following three arguments.
20060301 2-9-4 Using the Interactiv e Menu (3) Tap [Interactive] and then [apply]. • This executes the part of the calculation you selected in step (2). The part of the calculation that is not selected ( × cos( x ) + sin( x ) × diff(cos( x ), x )) is output to the display as-is.
20060301 2-10-1 Using the Main Application in Combination with Other Applications Graph 3D Graph Conics Graph Geometry Stat Editor Financial Numeric Solver Verify Graph Editor 3D Graph Editor Conics Editor Spreadsheet Differential Equation Editor Probability Sequence Editor (2) Tap the button that corresponds to the window you want to display.
20060301 2-10-2 Using the Main Application in Combination with Other Applications Closing Another Application’ s Window u ClassP ad Operation (1) Tap anywhere inside of the window you would like to close. (2) Tap the S button in the upper right corner, or tap O and then [Close].
20060301 2-10-3 Using the Main Application in Combination with Other Applications (3) Drag the stylus across “ x ^2 – 1” in the work area to select it. (4) Drag the selected expression to the Graph window. • This graphs y = x 2 – 1. This graph reveals that the x -intercepts are x = ± 1.
20060301 2-10-4 Using the Main Application in Combination with Other Applications Using a Graph Editor Window (Graph & T able: ! , Conics: * , 3D Graph: @ , Numeric Solver: 1 ) You can copy expressions by dragging them between the work area window and the Graph Editor, Conics Editor, 3D Graph Editor, and Numeric Solver windows.
20060301 2-10-5 Using the Main Application in Combination with Other Applications (4) Press E to register the expression. • The copied expression is displayed in natural format, with the check box next to it selected. • You could now tap $ to graph the function.
20060301 2-10-6 Using the Main Application in Combination with Other Applications u ClassP ad Operation (1) On the work area window, tap ( to display the Stat Editor window in the lower window. (2) Input the following list data into the lists named “list1” and “list2”.
20060301 2-10-7 Using the Main Application in Combination with Other Applications (4) Tap the Stat Editor window to make it active. • Here you can see that list3 contains the result of list1 + list2.
20090601 (7) Tap the Stat Editor window to make it active. (8) Scroll the screen to the right until the blank list to the right of “list6” is visible. 2-10-8 Using the Main Application in Combination with Other Applications (9) Tap the blank cell next to “list6”, input “test”, and then tap w .
20060301 2-10-9 Using the Main Application in Combination with Other Applications Using the Geometry Window 3 When there is a Geometry window on the display, you can drag values and expressions to the Geometry window to draw the graph or figure of the value or expression.
20060301 2-10-10 Using the Main Application in Combination with Other Applications (5) Drag the stylus across x 2 + y 2 = 1 in the work area to select it. (6) Drag the selected expression to the Geometry window. • A circle appears in the Geometry window.
20060301 2-10-11 Using the Main Application in Combination with Other Applications k Dragging a Figure fr om the Geometry Window to the W ork Area The following shows what happens when you drag a figure from the Geometry window to the work area.
20090601 2-11-1 Using V er ify 2-11 Using V erify Verify provides you with a powerful tool to check whether your numeric or algebraic manipulations are correct. Verify will assist you in simplifying an expression by verifying whether or not the expression you entered is equivalent to your original expression.
20060301 V erify Men us and Buttons This section provides basic information about Verify menus, commands, and buttons. Tip • O menu items are the same for all applications.
20060301 2-11-3 Using V er ify k V erify Buttons T o do this: T ap this V erify button: Clear the Verify window (same as the Clear All command) E Open or save a file (Main application only) R Specify .
20060301 2-11-4 Using V er ify (4) Following the equal sign (=), input 25 × 3 and tap w . (5) Tap [OK] to close the error dialog that appears. (6) Change 25 × 3 to 25 × 2 and tap w . (7) Following the next equal sign (=), input 5 × 5 × 2 and tap w .
20060301 2-12 Using Probability You can use Probability to simulate the following. • The die faces that will appear when a single die is thrown a specified number of times (1 Die) • The sum of the.
20060301 Star ting Up Probability Use the following procedure to start up Probability. u ClassP ad Operation (1) Tap the right most toolbar down arrow button. (2) On the icon palette that appears, tap P . • This will display an initial Probability dialog box like the one shown below.
20060301 k Edit Menu T o do this: Select this Edit menu item: Copy the currently selected object (trial information or trial result) and place it onto the clipboard Copy Display the Probability dialog.
20060301 Using Pr obability The following examples show the basic steps for using Probability. Example 1: To obtain the sum data when a two six-sided die are thrown 50 times u ClassP ad Operation (1) Tap the right most toolbar down arrow button. (2) On the icon palette that appears, tap P .
20060301 Example 2: To obtain the product data when a two six-sided die are thrown 150 times (This example assumes you are continuing from Example 1.) (1) Tap P to display the Probability dialog box. (2) Tap the button next to “2 Dice ` ” to select it.
20060301 (3) Configure the following settings on the dialog box. • Replace: Yes (Indicates the ball is replaced before the next draw. If the ball is not replaced, select “No”.) • A: 10, B: 20, C: 30 (Leaver other letters set to zero.) • Number of trials: 50 (4) Tap [OK].
20090601 Main application Program Program eActivity application 2-13 Running a Pr ogram in the Main Application You can run a program in the Main application or the eActivity application. Syntax: Folder nameProgram name(parameter) • You do not need to specify the folder name if the program you want to run is in the current folder.
20060301 (3) Enter 20 and then tap [OK]. • This will run OCTA and display the results in the program output window. (4) To close the program output window, tap anywhere inside it and then tap the S button in upper right corner.
20060301 Using the Graph & T ab le Application The Graph & Table application allows you to input and graph rectangular coordinate equations (or inequalities), polar coordinate equations, and parametric expressions.
20060301 3-1 Graph & T able Application Overview This section describes the configuration of the Graph & Table application windows and provides basic information about its menus and commands. Star ting Up the Graph & T able Application Use the following procedure to start up the Graph & Table application.
20060301 You can also use a function on the Graph Editor window to generate a number table or a summary table. Number tables and summary tables are displayed in a Table window. Graph & T able Application Menus and Buttons This section explains the operations you can perform using the Graph & Table application menus and buttons.
20060301 T o do this: T ap this button: Or select this menu item: Input a rectangular coordinate type inequality j Type - y > Type l Type - y < Type ' Type - y t Type X Type - y s Type Inpu.
20060301 k Graph Window Menus and Buttons T o do this: T ap this button: Or select this menu item: Cut the character string selected in the message box and place it onto the clipboard — Edit - Cut C.
20060301 T o do this: T ap this button: Or select this menu item: Display the coordinates at a particular point on a graph = Analysis - Trace Insert a point, graphic, or text into an existing graph (p.
20060301 T o do this: T ap this button: Or select this menu item: Specify “AND Plot” as the inequality plot setting — a - Inequality Plot - and Specify “OR Plot” as the inequality plot setti.
20060301 3-1-7 Graph & T able Application Ov er view Graph & T able Application Status Bar The status bar at the bottom of the Graph & Table application shows the current angle unit setting and [Complex Format] setting (page 1-9-5).
20060301 Example 1: To input the function y = 3 x 2 on Sheet 1 and graph it u ClassP ad Operation (1) On the application menu, tap T . • This starts the Graph & Table application. (2) In the Graph Editor window, tap the input box immediately to the right of line number y 1.
20060301 3-1-9 Graph & T able Application Ov er view (4) Tap $ . • This graphs the expression. The expression is displayed in the message box while the graph is being drawn. Tip • The Graph window message box is for both input and output. It displays information about the function and other information.
20060301 Example 2: To input the function r = 3sin2 into line 2 of Sheet 1 and graph it In Example 1, we graphed a rectangular expression in the form of y = f ( x ). You can also input polar coordinate expressions, inequalities, and other types of functions for graphing as well.
20060301 3-1-11 Graph & T able Application Ov er view (4) Tap $ . • Since there are check marks next to both “ y 1” and “ r 2”, both expressions are graphed.
20060301 3-2-1 Using the Graph Window 3-2 Using the Graph Windo w This section explains Graph window operations, including configuring display settings, scrolling, zooming the image, and more.
20060301 3-2-2 Using the Graph Window P olar Coordinates and P arametric Coor dinates T o select this type of graph: x -log graph y -log graph xy -log graph Do this: Select the x -log check box. • This automatically sets “xdot” and “xscale” to “Auto”.
20060301 u View Window parameter precautions • An error occurs if you input 0 for t step. • An error also occurs if you input a value that is out of range for a parameter, if you input a minus sign only, or if you perform any other illegal input.
20060301 3-2-4 Using the Graph Window u T o standardize the View Window (1) On the application menu, tap T . (2) Tap 6 . This displays the View Window dialog box. (3) Tap [Memory] and then [Standard]. This applies the standard View Window parameters shown below.
20060301 3-2-5 Using the Graph Window u T o recall a setup from View Window memory (1) On the application menu, tap T . (2) Tap 6 . This displays the View Window dialog box. (3) Tap [Memory] and then [Recall]. This displays a list of names of the View Window setups you have stored in memory.
20060301 3-2-6 Using the Graph Window P anning the Graph Window Placing the stylus against the Graph window and dragging causes the window to scroll automatically in the direction you drag. u ClassP ad Operation (1) Tap the Graph window to make it active.
20060301 3-2-7 Using the Graph Window Zoom Command Description Bo x F actor Zoom In Zoom Out Au t o Original Square Round Integer Pre vious Quick Initializ e Quick T rig Quick log ( x ) Quick e^ x Quick x ^2 Quick – x ^2 Quick Standard With “box z oom”, you dra w a selection boundar y around the area you would lik e to enlarge.
20060301 3-2-8 Using the Graph Window u T o use factor zoom Example: To enlarge the graphs of the following two expressions, by a factor of 5 in both directions, to determine whether they come into contact with each other y 1 = ( x + 4)( x + 1)( x – 3) y 2 = 3 x + 22 (1) On the application menu, tap T .
20101001 3-2-9 Using the Graph Window (6) Input 5 for both the x Factor and y Factor, and then tap [OK]. (7) Tap T , and then use the stylus to drag the screen image so the part you want to zoom is in the center of the screen. (8) Tap [Zoom] and then [Zoom In].
20060301 3-2-10 Using the Graph Window k Using Other Zoom Menu Commands The [Auto], [Original], [Square], [Round], [Integer], and [Previous] zoom commands are executed as soon as you tap one of them on the Graph window’s [Zoom] menu. For information about what each command does, see “Zoom Commands” on page 3-2-7.
20060301 k Redra wing a Graph Use the following procedure to redraw a graph when necessary. u ClassP ad Operation (1) Tap the Graph window to make it active. (2) Tap a and then [ReDraw]. • While the Graph Editor window is active, you can redraw the graph by tapping $ .
20060301 3-3 Storing Functions Use the Graph Editor window to store a Graph & Table application function. This section covers Graph Editor operations, and explains how to store functions. Using Graph Editor Sheets The Graph Editor window has five tabbed sheets named Sheet 1 through Sheet 5, each of which can contain up to 20 functions.
20060301 k Returning Sheets to Their Default Names The procedure below returns the sheet names to their initial default names (Sheet 1 through Sheet 5). u ClassP ad Operation (1) Tap the Graph Editor window to make it active. (2) Tap a , [Sheet], and then [Default Name].
20060301 u ClassP ad Operation (1) On the application menu, tap T . (2) On the Graph Editor window, tap the down arrow next to “ y =”, or tap [Type].
20060301 u T o store an x = equation Example: To store x = 3 y in line x 4 (1) On the Graph Editor window, tap [Type] and then [ x =Type] to specify an x = equation. (2) Tap the box to the right of line number “ x 4”, and then input the equation: 3y .
20060301 Using Built-in Functions Your ClassPad is pre-programmed with the commonly used functions listed below. You can recall a built-in function, save it to an Graph Editor sheet, assign values to its coefficients, and graph the results.
20060301 u T o save an expression fr om the message box to the Graph Editor windo w (1) Tap the Graph window to make it active. (2) Perform a Trace operation (see “3-7 Using Trace”) or any other operation that causes the message box to appear.
20060301 Deleting All Graph Editor Expressions Use the following procedure to delete all of the expressions on all Graph Editor sheets, and initialize all of the sheet names.
20060301 k Specifying the Function Y ou W ant to Graph On the Graph Editor window, you can select one or more functions for graphing by selecting their check boxes. The functions whose check boxes are cleared are not graphed. • This check box is selected, so the function next to it will be graphed when you tap $ .
20060301 k Quic k Graphing of an Expression Using Drag and Drop You can use the following procedure to graph a single function, even when you have multiple functions selected on the Graph Editor window. u ClassP ad Operation (1) Tap the tab of the sheet that contains the function you want to graph to make it active.
20060301 3-3-10 Storing Functions (3) Tap $ . AND Plot OR Plot.
20060301 k Shading the Region Bounded b y T w o Expressions You can shade the region bounded by two expressions by specifying [ShadeType] as the function type and then inputting the expressions in the syntax shown below. Syntax: y a {lower function f ( x ), upper function g ( x )} | A < x < B The value of B must be greater than A.
20060301 3-3-12 Storing Functions k Using the Dra w Shade Dialog Box to Shade the Region Bounded b y T w o Expressions In this case, you input the expressions on a Draw Shade dialog box instead of the Graph Editor Window. Example: To graph f ( x ) = –1, g ( x ) = 1, –1 < x < 1 u ClassP ad Operation (1) On the a menu, tap [Draw Shade].
20060301 k Dr opping an Expression from the Main Application W ork Area into the Graph Window • You can graph a polar coordinate expression by dragging it from the Main Application work area and dropping it into the Graph window.
20060301 Saving Graph Editor Data to Graph Memory Graph memory lets you store all of the expressions and their related information to a file for later recall.
20060301 3-4-1 Using T able & Graph For details about using the Stat Editor, see Chapter 7. 3-4 Using T able & Graph The Graph & Table application includes a “Table window” for displaying number tables and summary tables generated with the functions you input on the Graph Editor window.
20060301 u T o g enerate a number table b y specifying a rang e of values f or x using the T able Input dialog bo x Example: To generate a number table for the function y = 3 x 2 – 2 as the value of x changes from –3 to 1 in increments of 1 (1) On the application menu, tap T .
20060301 u T o g enerate a number table b y assigning list values to x (1) Create and save the list of values to be assigned. list1 = 1, 2, 3, 4, 5 (2) In line y 1 of the Graph & Table application Graph Editor window, input and save y = 3 x 2 – 2.
20060301 k T able Generation Precautions • Table generation is performed using the currently selected function that is of the current function type selected on the Graph Editor window toolbar.
20060301 3-4-5 Using T able & Graph Tip • An error message appears and the number table contents are not changed if you enter an illegal value for x (such as 6 ÷ 0). • The data in a “Y” column (Y1, Y2, etc.) of a table cannot be modified.
20060301 3-4-6 Using T able & Graph u T o add a number table line (1) Tap the x -value of the bottom line of the number table. (2) Tap [T-Fact] and then [Add]. • After adding a new line, you can edit the x -value, if you want. For more information, see “Editing Number Table Values” on page 3-4-4.
20060301 Generating a Number T able and Using It to Draw a Graph After using a function to generate a number table, you can use the number table values to draw a graph.
20060301 (6) Specify the graph type. • To specify a connect type graph, tap [Graph] and then [G-Connect], or tap $ . To specify a plot type graph, tap [Graph] and then [G-Plot], or tap ! .
20060301 (2) Tap a and then [Table to List]. • This displays a dialog box for specifying a variable name. 3-4-9 Using T able & Graph (3) Enter the name you want to give to the variable, and then tap [OK]. • This assigns the list of data you selected to a variable with the name you specified.
20060301 u Specifying all x -values This method generates a reference table by looking up data stored in a list. A LIST variable is used to specify the x -values. When using this method, it is up to you specify all of the correct x -values required to generate the summary table.
20060301 (4) Tap [Memory] and then [Auto]. • This causes all settings on the View Window dialog box to change to “Auto”. 3-4-11 Using T able & Graph (5) Tap the [OK] button to close the View Window dialog box. (6) Tap u to toggle to toolbar 2 and then tap 4 .
20060301 • Tapping $ here graphs the function using the View Window settings automatically configured for summary table generation. 3-4-12 Using T able & Graph Impor tant! • A monotone increasing function or other special function may not be solvable by the ClassPad’s internal summary table calculation.
20060301 • For this example, we will specify xmin = –0.5 and xmax = 2. (5) Tap the [OK] button to close the View Window dialog box. (6) Tap 4 . • This starts the summary table generation using the range you specified in step (4), and displays the result on the Table window.
20060301 k Generating a Summary T able b y Specifying All of the V alues f or x In both of the previous examples, summary table generation is performed using View Window settings to calculate values for x that satisfy the function f ⬘ ( x ) = 0. With this table generation method, x -values are not calculated automatically.
20060301 (5) Tap the Graph Editor window to make it active. (6) Tap 4 . • This starts summary table generation using the x -values you input in step (4), and displays the result on the Table window.
20060301 3-5 Modifying a Graph A graph can be modified in real time as you change its coefficients and/or the variables. The Graph & Table application provides you with two methods for modifying a graph. Direct Modify “Direct Modify” changes the coefficient in the equation of the original graph.
20060301 3-5-2 Modifying a Graph T o do this: T ap the r ight graph controller arro w . T ap the left graph controller arrow . Do this: Decrease the v alue of the coefficient Increase the v alue of the coefficient • You can use the Dynamic Graph dialog box on page 3-5-4 to change the increment, if you want.
20060301 (9) To modify the y 2 graph (2 x + 1), tap the down graph controller arrow to make it the graph active. • You can use the up and down cursor keys or graph controller arrows to switch between the two graphs, as required. • Repeat steps (7) and (8) to modify the currently selected graph.
20060301 Sim ultaneously Modifying Multiple Graphs by Changing Common V ariables (Dynamic Modify) Use the procedure below to change the values of up to two common variables used in multiple functions to simultaneously modify the graphs.
20060301 (10) Tap [OK]. • This displays a WARNING! dialog box for overwriting variable a . 3-5-5 Modifying a Graph • This graphs the functions using the a and b variable start values you specified on the Dynamic Graph dialog box, and displays “Modify” on the Graph window.
20060301 3-5-6 Modifying a Graph with the settings you configure on the Dynamic Graph dialog box. u ClassP ad Operation (1) Perform steps (1) through (9) under “To modify multiple graphs simultaneously” on page 3-5-4. (2) On the Dynamic Graph dialog box, tap the [Auto] option.
20060301 Clear figures and te xt you ha v e added using the sketch f eature Plot a point on the Graph windo w Dra w a line on the Graph window Write text on the Gr aph window Dra w a line that is tang.
20060301 3-6-2 Using the Sketch Men u u T o draw a line on the Graph window (1) While the Graph window is active, tap [Analysis], [Sketch], and then [Line]. (2) On the Graph window, tap the start point of the line and then tap the end point. This causes a straight line to be drawn between the two points.
20060301 u T o draw a line tangent to a graph Example: To draw a line tangent to the graph y = x 2 – x – 2 when x = 1 (1) In line y 1 of the Graph Editor window, input and save y = x 2 – x – 2. (2) Tap $ to graph the function. (3) Tap [Analysis], [Sketch], and then [Tangent].
20060301 u T o graph the in verse of a function Example: To graph y = x 2 – x – 2 and then overlay it with x = y 2 – y – 2 (1) In line y 1 of the Graph Editor window, input and save y = x 2 – x – 2. (2) Tap $ to graph the function. (3) Tap [Analysis], [Sketch], and then [Inverse].
20060301 u T o draw a vertical or horizontal line Example: To draw a vertical line at x = 2 (1) While the Graph window is active, tap [Analysis], [Sketch], and then [Vertical]. • This displays “Vertical” on the Graph window, and the ClassPad waits for you to draw the vertical line.
20060301 3-7 Using T race Trace lets you move a point along a graph and displays the coordinates for the current pointer location. You can also link the trace operation to the number table used to draw a graph, so the pointer jumps to the coordinates that are currently selected in the table.
20060301 • You can also move the pointer to a particular point by inputting coordinates. Pressing a number key displays a dialog box for inputting coordinates.
20060301 Linking T race to a Number T able This section explains how you can link the movement of the trace pointer to the values in the number table used to draw the graph.
20060301 Generating Number T able V alues fr om a Graph A “graph-to-table” feature lets you extract the coordinate values at the current pointer location and input them into a table.
20060301 (4) Tap the Graph window to make it active. Next, tap [Analysis] and then [Trace]. • This causes a pointer to appear on the graph. (5) Use the cursor key to move the pointer along the graph until it reaches a point whose coordinates you want to input into the table.
20110401 3-8 Anal yzing a Function Used to Draw a Graph Your ClassPad includes a G-Solve feature that lets you perform a variety of different analytical processes on an existing graph. G-Solve Menu Overview To access the [G-Solve] menu, tap [Analysis] and then [G-Solve].
20060301 Using G-Solve Menu Commands This section describes how to use each of the commands on the [G-Solve] menu. Note that all of the procedures in this section are performed in the Graph & Table application, which you can enter by tapping the T icon on the application menu.
20060301 u T o obtain the minimum v alue, maximum v alue , f Max, f Min, y -intercept, and inflection of a function Example: To graph the function y = x 2 ( x + 2)( x – 2) and obtain its minimum value (1) Display the View Window dialog box, and then configure it with the following parameters.
20060301 u T o obtain the point of intersection f or two graphs Example: To graph the functions y = x + 1 and y = x 2 , and determine their point of intersection (1) Display the View Window dialog box, and then configure it with the following parameters.
20060301 u T o determine coordinates at a particular point on a graph Example: To graph the function y = x ( x + 2)( x – 2) and determine the y -coordinate when x = 0.5, and the x -coordinate when y = 2.2 (1) Display the View Window dialog box, and then configure it with the following parameters.
20060301 u T o determine the definite integral for a particular domain Example: To graph the function y = x ( x + 2)( x – 2) and obtain its definite integral in the domain of 1 < x < 2 (1) Display the View Window dialog box, and then configure it with the following parameters.
20060301 u T o determine the distance between any tw o points (1) Tap the Graph window to make it active. (2) Tap [Analysis], [G-Solve], and then [Distance]. • This displays “Distance” on the Graph window, and the ClassPad waits for you to specify the first point.
20060301 3-8-8 Analyzing a Function Used to Dra w a Graph (2) On the Graph Editor window, input and store y 1 = x 3 – 1 into line y 1, and then tap $ to graph it. • Make sure that only “ y 1” is selected (checked). (3) Tap [Analysis], [G-Solve], and then [Inflection].
20060301 (4) Press 1 . • This displays a dialog box for inputting an interval of values for x , with 1 specified for the lower limit of the x -axis (Lower). (5) Tap the [Upper] input box and then input 2 for the upper limit of the x -axis. (6) Tap [OK].
20060301 Using the Conics Application The Conics application provides you with the capability to graph circular, parabolic, elliptic, and hyperbolic functions.
20060301 4-1 Conics Application Overview This section describes the configuration of the Conics application windows, and provides basic information about its menus and commands. • The Conics application uses many of the same commands (Zoom, Trace, Sketch, etc.
20060301 4-1-2 Conics Application Ov er view Conics Application Menus and Buttons This section explains the operations you can perform using the menus and buttons of the Conics application window. • For information about the O menu, see “Using the O Menu” on page 1-5-4.
20060301 Zoom - Square — Zoom - Round Zoom - Integer — Zoom - Previous Zoom - Quick Initialize — Zoom - Quick Trig Zoom - Quick log( x ) — Zoom - Quick e^ x Zoom - Quick x ^2 — Zoom - Quick .
20060301 — a - Store Picture — a - Recall Picture a - ReDraw " O - View Window O - Variable Manager * O - Conics Editor 6 — T — Display the View Window dialog box (page 3-2-1) to configur.
20060301 4-2-1 Inputting Equations 4-2 Inputting Equations This section explains the various ways you can input equations using the Conics Editor window. Using a Conics Form to Input an Equation Preset formats can help you input conics equations quickly and easily.
20060301 4-2-2 Inputting Equations u T o input an equation using a Conics Form Example: To use a Conics Form to input the equation for a parabola with a horizontal axis (principal axis parallel with x -axis) (1) On the application menu, tap C to start the Conics application.
20060301 4-2-3 Inputting Equations Inputting an Equation Manuall y To input an equation manually, make the Conics Editor window active, and then use the soft keyboard for input.
20060301 4-3-1 Dra wing a Conics Graph 4-3 Dra wing a Conics Graph This section provides examples that show how to draw various types of conics graphs. Drawing a P arabola A parabola can be drawn with either a horizontal or vertical orientation. The parabola type is determined by the direction of its principal axis.
20060301 4-3-2 Dra wing a Conics Graph Example 2: To draw the parabola x = y 2 + 2 y + 3 u ClassP ad Operation (1) In step (2) of the above procedure, select “X = AY 2 + BY + C” on the Select Conics Form dialog box. (2) In step (3) of the above procedure, change the coefficients of the equation as follows: A = 1, B = 2, C = 3.
20060301 k Dra wing a P arabola that Opens V er tically A parabola with a vertical axis is one whose principal axis is parallel to the y -axis. There are two possible equations for a parabola with a vertical axis: y = A( x – H) 2 + K and y = A x 2 + B x +C.
20060301 4-3-4 Dra wing a Conics Graph Drawing a Cir cle There are two forms that you can use to draw a circle. One form is the standard form, which allows you to specify the center point and radius. The other form is the general form, which allows you to specify the coefficients of each term.
20060301 k Dra wing a Cir cle b y Specifying the Coefficients of a General Equation Example: To draw the circle x 2 + y 2 + 4 x – 6 y + 9 = 0 u ClassP ad Operation (1) In step (2) of the procedure under “Drawing a Circle by Specifying a Center Point and Radius”, select “AX 2 + AY 2 + BX + CY + D = 0”.
20060301 4-3-6 Dra wing a Conics Graph Drawing a Hyperbola A hyperbola can be drawn with either a horizontal or vertical orientation. The hyperbola type is determined by the direction of its principal axis.
20060301 4-3-7 Dra wing a Conics Graph k Dra wing a Hyperbola that Opens V ertically The standard form of a hyperbola with a vertical axis is: u ClassP ad Operation (1) In step (2) of the procedure under “Drawing a Hyperbola that Opens Horizontally”, select “ ”.
20060301 4-3-8 Dra wing a Conics Graph Drawing a General Conics Using the conics general equation A x 2 + B xy + C y 2 + D x + E y + F = 0, you can draw a parabola or hyperbola whose principal axis is not parallel either to the x -axis or the y -axis, a slanted ellipse, etc.
20060301 4-4-1 Using T race to Read Graph Coordinates 4-4 Using T race to Read Graph Coor dinates Trace allows you move a pointer along a graph line and display the coordinates at the current pointer location. Starting the trace operation causes a crosshair pointer ( ) to appear on the graph.
20060301 4-5-1 Using G-Solv e to Analyze a Conics Graph 4-5 Using G-Solve to Anal yz e a Conics Graph The G-Solve menu includes commands that let you perform a variety of different analytical processes on a graph drawn on the Conics Graph window.
20060301 4-5-2 Using G-Solv e to Analyze a Conics Graph Using G-Solve Menu Commands The following are some examples of how to perform the Conics application [G-Solve] menu commands. u T o determine the focus of the parabola x = 2( y – 1) 2 – 2 (1) On the Conics Editor window, input the conics equation and then tap ^ to graph it.
20060301 4-5-3 Using G-Solv e to Analyze a Conics Graph u T o determine the directrix of the parabola x = 2( y – 1) 2 – 2 [Analysis] - [G-Solve] - [Directrix] u T o determine the axis of symmetr y.
20060301 u T o determine the asymptotes of the hyperbola [Analysis] - [G-Solve] - [Asymptotes] u T o determine the eccentricity of the ellipse [Analysis] - [G-Solve] - [Eccentricity] u T o determine t.
20060301 u For the hyperbola , determine the x -coordinate when the y -coor dinate is 0 [Analysis] - [G-Solve] - [ x -Cal] Tip • When there are two x -coordinates, press the left and right cursor keys or tap the left and right graph controller arrows to toggle the display between them.
20060301 Using the 3D Graph Application The 3D Graph application lets you draw a 3-dimensional graph of an equation in the form z = f ( x , y ) or of a parametric equation.
20060301 5-1 3D Graph Application Overview This section describes the configuration of the 3D Graph application window, and provides basic information about its menus and commands. 5-1-1 3D Graph Application Ov er view 3D Graph Application Window The 3D Graph application has a 3D Graph Editor window and a 3D Graph window.
20060301 5-1-2 3D Graph Application Ov er view 3D Graph Application Menus and Buttons This section explains the operations you can perform using the menus and buttons of the 3D Graph application’s windows. • For information about the O menu, see “Using the O Menu” on page 1-5-4.
20060301 5-1-3 3D Graph Application Ov er view k 3D Graph Window Menus and Buttons The following describes the menu and button operations you can perform while the 3D Graph window is active.
20060301 3D Graph Application Status Bar The status bar at the bottom of the 3D Graph application shows the current angle unit setting and [Complex Format] setting (page 1-9-5). Rad Deg Gra Real The angle unit setting is radians . The angle unit setting is degrees .
20060301 5-2-1 Inputting an Expression 5-2 Inputting an Expression Use the 3D Graph Editor window to input 3D Graph application expressions. Using 3D Graph Editor Sheets The 3D Graph Editor has five tabbed sheets named Sheet 1 through Sheet 5. Each sheet can contain up to 20 functions.
20060301 5-2-2 Inputting an Expression Storing a Function You can input an equation of the form z = f ( x , y ) or a parametric equation. Example: To store z = x 2 + y 2 in line z 1 u ClassP ad Operation (1) On the application menu, tap D .
20060301 5-3-1 Dra wing a 3D Graph 5-3 Dra wing a 3D Graph This section explains how to draw a 3D graph, as well as how to change the angle of a graph and how to rotate a graph.
20060301 5-3-2 Dra wing a 3D Graph • The following are the allowable ranges for the indicated View Window parameters: xgrid and ygrid: 2 to 50; angle θ : – 180 < θ < 180; angle φ : 0 to 360. • The angle parameters, θ and φ , are always degrees, regardless of the current [Angle] setting of the Basic Format dialog box (page 1-9-5).
20060301 3D Graph Example Example 1: To graph the hyperbolic paraboloid z = x 2 /2 – y 2 /8. u ClassP ad Operation (1) In the 3D Graph application, make the 3D Graph Editor window active. (2) Tap 7 to display the View Window dialog box, and then configure the parameters shown below.
20060301 Example 2: To graph a parametric equation u ClassP ad Operation (1) In the 3D Graph application, make the 3D Graph Editor window active. (2) Tap to specify input of a parametric equation. (3) Tap line Xst1, and then input sin( t ) × cos( s ).
20060301 5-3-5 Dra wing a 3D Graph k Selecting the Function to be Graphed The 3D Graph application lets you graph only one function at a time. When you have more than one expression input on the 3D Graph Editor window, you need to select the one you want to graph.
20060301 5-4-1 Manipulating a Graph on the 3D Graph Windo w 5-4 Manipulating a Graph on the 3D Graph Windo w This section describes how to enlarge and reduce the size of a graph, how to change the eye position to view the graph along a particular axis, and how to perform other operations like automatic rotation.
20060301 5-4-2 Manipulating a Graph on the 3D Graph Windo w • To view the graph facing the y -axis, tap [Zoom] and then [View- y ], or press the y key.
20060301 5-4-3 Manipulating a Graph on the 3D Graph Windo w Rotating a Graph A utomatically You can use the following procedure to rotate a graph automatically for about 30 seconds. u ClassP ad Operation (1) To start automatic graph rotation, tap a and then [Rotating].
20060301 5-5-1 Other 3D Graph Application Functions 5-5 Other 3D Graph Application Functions Using T race to Read Graph Coordinates Starting the trace operation causes a crosshair pointer to appear on the graph.
20060301 5-5-2 Other 3D Graph Application Functions Calculating a z -v alue for P ar ticular x - and y -values, or s - and t -v alues Use the following procedure to calculate a z -value for given x - and y -values on the displayed graph. u ClassP ad Operation (1) Draw the graph and make the 3D Graph window active.
20060301 Using Drag and Dr op to Draw a 3D Graph Dropping an equation of the form z = f ( x , y ) into the 3D Graph window will graph the equation. 5-5-3 Other 3D Graph Application Functions.
20060301 6 Using the Sequence Application The Sequence application provides you with the tools you need to work with explicit sequences and recursive type sequences.
20060301 6-1-1 Sequence Application Ov er view 6-1 Sequence Application Overview This section describes the configuration of the Sequence application window, and provides basic information about its menus and commands. Star ting up the Sequence Application Use the following procedure to start up the Sequence application.
20060301 6-1-2 Sequence Application Ov er view k Sequence Editor Window Menus and Buttons O Menu Cut the currently selected object and place it onto the clipboard* Copy the currently selected object a.
20060301 Buttons 6-1-3 Sequence Application Ov er view T o do this: T ap this button: Create an ordered pair table Create an arithmetic sequence table Create a geometric sequence table Create a progre.
20060301 k Sequence Graph Window Men us and Buttons Edit Menu The commands on this menu are identical to those for the Sequence Editor window [Edit] menu described on page 6-1-2. Zoom Menu The commands on this menu are identical to those for the Graph & Table application [Zoom] menu described on page 3-1-4.
20060301 Input a recursion system variable a 0 , a 1 , a 2 , b 0 , b 1 , b 2 , c 0 , c 1 , or c 2 T o do this: Select one of these a 0 , a 1 menu items: Buttons T o do this: T ap this button: Create a.
20060301 Sequence Application Status Bar The status bar at the bottom of the Sequence application shows the current angle unit setting and [Complex Format] setting (page 1-9-5). 6-1-6 Sequence Application Ov er view Angle unit Real mode Rad Deg Cplx Real The angle unit setting is radians .
20060301 6-2 Inputting an Expression in the Sequence Application In the Sequence application, you input expressions using menus and buttons, without using the soft keyboard at the bottom of the window. Inputting Data on the Sequence Editor Window To input an expression, tap the input location you want ((a), (b), or (c)) to locate the cursor there.
20060301 6-3 Recur sive and Explicit Form of a Sequence ClassPad supports use of three types of sequence expressions: a n + 1 =, a n + 2 = and a n E . Generating a Number T able In addition to ordered.
20060301 (8) Tap the down arrow button next to # , and then select ` to create the table. k Other T able T ypes The following show what the window looks like after you generate other types of tables.
20060301 Graphing a Recursion An expression can be graphed as a connect type graph (G-Connect) or a plot type graph (G-Plot). Example: To graph a n + 1 = 2 a n +1, a 1 = 1 u ClassP ad Operation (1) Start up the Sequence Editor. • If you have another application running, tap m and then H .
20060301 (7) Configure View Window settings as shown below. xmin = 0 xmax = 6 xscale = 1 xdot: (Specify auto setting.) ymin = –15 ymax = 65 yscale = 5 ydot: (Specify auto setting.) (8) After everything is the way you want, tap [OK]. (9) Tap the down arrow button next to # , and then select + to create the table.
20060301 Determining the General T erm of a Recur sion Expression The following procedure converts the sequence expressed by a recursion expression to the general term format a n = f ( n ). Example: To determine the general term of the recursion expression a n + 1 = a n + 2, a 1 = 1 u ClassP ad Operation (1) Start up the Sequence Editor.
20060301 Calculating the Sum of a Sequence Perform the following steps when you want to determine the sum of a specific range of the sequence of a recursion expression or a general term expression.
20060301 6-4 Using LinkT race While the Table and Graph windows are on the display, you can activate LinkTrace. To do this, tap in the Table window to make it active.
20060301 6-5 Dra wing a Cobweb Diagram You can use the procedure described here to input a sequence and draw a cobweb diagram. Example: To graph , a 1 = 0.5 u ClassP ad Operation (1) Start up the Sequence Editor. • If you have another application running, tap m and then H .
20060301 Using the Statistics Application This chapter explains how to use the Statistics application. You can use the Statistics application to perform a variety of statistical calculations and to graph statistical data. Numeric data stored in lists can be used to perform Statistics application operations.
20060301 7-1-1 Statistics Application Ov er view 7-1 Statistics Application Overview This section describes the configuration of the Statistics application windows and provides basic information about its menus and commands. The Statistics application provides you with the tools you need to perform the operations listed below.
20060301 Star ting Up the Statistics Application Use the following procedure to start up the Statistics application. u ClassP ad Operation On the application menu, tap I .
20060301 Stat Editor Window Menus and Buttons This section explains the operations you can perform using the menus and buttons of the Statistical application’s Stat Editor window.
20060301 Stat Editor Window Status Bar The status bar at the bottom of the Stat Editor window shows the current angle unit setting (page 1-9-5), statistics View Window setting (page 7-3-2), and decimal calculation setting (page 1-9-5).
20060301 7-2-1 Using Stat Editor 7-2 Using Stat Editor Lists play a very important role in ClassPad statistical calculations. This section provides an overview of list operations and terminology. It also explains how to use the Stat Editor, a tool for creating and maintaining lists.
20060301 k Creating a List A list starts out with an initial default name like list1, list2, list3, etc. The Stat Editor allows you to generate list data (list variables) quickly and easily. Note • The Stat Editor window has six default list variables, named “list1” through “list6”.
20060301 u T o jump to the first or last line of a list (1) Select any cell in the list. (2) On the menu bar, tap [Edit]. (3) Select one of the following commands to perform the type of operation you want.
20060301 k Closing a List Closing a list saves it under its current list (variable) name. There are two different methods you can use to close a list: using the [Close List] command, and clearing the list name from its list name cell.
20060301 (2) Input the data you want. T o input a v alue • Use the input keypad or soft keyboard that appears when you press k . You can also access the soft keyboard by tapping O Menu. T o input a mathematical e xpression • Use the soft keyboard that appears when you press k .
20060301 7-2-6 Using Stat Editor u T o batch input a set of data Example: To input the values 1, 2, and 3 into list1 (1) On the Stat Editor window, select the “Cal” cell of the list where you want to input the data (list1 in this example). (2) Enter {1,2,3}.
20060301 Editing List Contents Use the procedures in this section to delete and insert elements, to clear data, and to sort data. u T o delete a list cell (1) On the Stat Editor window, select the cell you want to delete. (2) Tap [Edit]. (3) On the menu that appears, tap [Delete], and then tap [Cell] on the submenu that appears.
20060301 Tip • Note that inserting a cell does not affect the cells in other lists. If you insert a cell in a list that is aligned with another list, the lists will become misaligned when the cells underneath are shifted downwards.
20060301 Contr olling the Number of Displayed List Columns You can use the following procedures to control how many list columns appear on the Statistics application window.
20060301 7-3 Bef ore T rying to Draw a Statistical Graph Before drawing a statistical graph, you need to first configure its “StatGraph setup” using the [SetGraph] menu.
20060301 Configuring StatGraph Setups Use the procedure below to display the Set StatGraphs dialog box and configure the nine StatGraph setups. u T o display the Set StatGraphs dialog bo x (1) On the Stat Editor window, tap [SetGraph] and then [Setting…].
20060301 7-3-3 Bef ore T r ying to Draw a Statistical Gr aph u Draw Draw the graph using the StatGraph setup of the current tab Not draw the graph using the StatGraph setup of the current tab On Off Select this option: T o do this: u T ype Tap the down arrow button, and then select the graph type from the list that appears.
20060301 7-3-4 Bef ore T r ying to Draw a Statistical Gr aph • The initial default frequency setting is 1. Specifying a list that causes each data value to be plotted five times helps to improve the appearance of scatter plots. • A list of frequency values can contain non-zero integers and decimal values.
20060301 7-4 Graphing Single-V ariable Statistical Data Single-variable data is data that consists of a single value. If you are trying to obtain the average height of the members of a single class, for example, the single variable would be height. Single-variable statistics include distributions and sums.
20090601 7-4-2 Graphing Single-V ar iable Statistical Data Histogram Bar Graph (Histogram) A histogram shows the frequency (frequency distribution) of each data class as a rectangular bar. Classes are on the horizontal axis, while frequency is on the vertical axis.
20060301 7-4-3 Graphing Single-V ar iable Statistical Data k Graph P arameter Settings (page 7-3-3, 7-3-4) • [XList] specifies the list that contains the data to be plotted.
20060301 7-4-4 Graphing Single-V ar iable Statistical Data A dialog box like the one shown above appears before the graph is drawn. You can use this dialog box to change the start value (HStart) and step value (HStep) of the histogram, if you want.
20060301 7-5 Graphing P aired-V ariab le Statistical Data With paired-variable statistical data there are two values for each data item. An example of paired-variable statistical data would be the change in size of an iron bar as its temperature changes.
20101001 (9) Tap y to draw the xy line graph. 7-5-2 Graphing P aired-V ar iable Statistical Data Drawing a Regression Graph (Curve Fitting) Use the procedures below to input paired-variable statistical data. Next perform regression using the data and then graph the results.
20060301 7-5-3 Graphing P aired-V ar iable Statistical Data (6) Tap [Calc] [Logarithmic Reg]. (7) Tap [OK]. (8) Tap [OK] " . Tip • You can perform trace (page 3-7-1) on a regression graph. Trace scroll, however, is not supported when a scatter diagram is displayed.
20060301 Example 2: Input the paired-variable data shown below (which is the same data as Example 1), and then draw the regression graph without performing regression calculation. list1 = 0.5, 1.2, 2.4, 4.0, 5.2 list2 = –2.1, 0.3, 1.5, 2.0, 2.4 u ClassP ad Operation (1) m I (2) Input the data shown above.
20090601 Drawing a Linear Regression Graph Linear regression uses the method of least squares to determine the equation that best fits your data points, and returns values for the slope and y -intercept. The graphic representation of this relationship is a linear regression graph.
20060301 Drawing a Med-Med Graph When you suspect that the data contains extreme values, you should use the Med-Med graph (which is based on medians) in place of the linear regression graph. Med-Med graph is similar to the linear regression graph, but it also minimizes the effects of extreme values.
20060301 Drawing Quadratic, Cubic, and Quar tic Regression Graphs You can draw a quadratic, cubic, or quartic regression graph based on the plotted points. These graphs use the method of least squares to draw a curve that passes the vicinity of as many data points as possible.
20060301 Cubic Regression Model Formula: y = a · x 3 + b · x 2 + c · x + d a : cubic regression coefficient b : quadratic regression coefficient c : linear regression coefficient d : regression con.
20060301 Drawing a Logarithmic Regression Graph Logarithmic regression expresses y as a logarithmic function of x . The normal logarithmic regression formula is y = a + b · ln( x ). If we say that X = ln( x ), then this formula corresponds to the linear regression formula y = a + b ·X.
20060301 Drawing an Exponential Regression Graph ( y = a · e b · x ) Exponential regression can be used when y is proportional to the exponential function of x . The normal exponential regression formula is y = a · e b · x . If we obtain the logarithms of both sides, we get ln( y ) = ln( a ) + b · x .
20060301 Drawing an Exponential Regression Graph ( y = a · b x ) Exponential regression can be used when y is proportional to the exponential function of x . The normal exponential regression formula in this case is y = a · b x . If we take the natural logarithms of both sides, we get ln( y ) = ln( a ) + (ln( b )) · x .
20060301 Drawing a P ower Regression Graph ( y = a · x b ) Power regression can be used when y is proportional to the power of x . The normal power regression formula is y = a · x b . If we obtain the logarithms of both sides, we get ln( y ) = ln( a ) + b · ln( x ).
20060301 The following is the sinusoidal regression model formula. y = a ·sin( b · x + c ) + d Tip • Make sure that “Radian” is selected for the [Angle] setting on the Basic Format dialog box (page 1-9-4) before drawing a sinusoidal regression graph.
20060301 Drawing a Logistic Regression Graph ( ) Logistic regression is best for data whose values continually increase over time, until a saturation point is reached. u ClassP ad Operation Start the graphing operation from the Statistics application’s Graph window or List window.
20060301 Overla ying a Function Graph on a Statistical Graph You can overlay an existing statistical graph with any type of function graph. Example: Input the two sets of data shown below, and plot the data on a scatter plot. Next, overlay the scatter plot with the graph of y = 2 · ln( x ).
20060301 7-6 Using the Statistical Graph Windo w T oolbar The following describes the operations you can perform using the toolbar on the Statistical Graph window.
20090601 7-7 P erf orming Statistical Calculations You can perform statistical calculations without drawing a graph by tapping [Calc] on the menu bar and selecting [One-Variable] or [Two-Variable].
20101001 • You can use the [Q1, Q3 on Data] setting on the Basic Format dialog box (page 1-9-4) to select the Q1 and Q3 calculation methods. For details, see “Calculation Methods for Q1 and Q3” below.
20101001 Center Point Center Point u Chec ked: Q1, Q3 on Data The Q1 and Q3 values for this calculation method are described below. Q1 = {value of element whose cumulative frequency ratio is greater t.
20101001 7-7-4 P erf or ming Statistical Calculations Viewing P aired-v ariable Statistical Calculation Results Besides using a graph, you can also use the following procedure to view the paired-variable statistics parameter values. u T o display paired-v ariable calculation results (1) On the menu bar, tap [Calc] and then [Two-Variable].
20101001 Viewing Regression Calculation Results To view regression calculation results, tap [Calc] on the menu bar and then tap the type of calculation results you want. • You can also use the [DispStat] option to display the last calculated statistical results.
20101001 7-7-6 P erf or ming Statistical Calculations u T o view “residual” system variab le values (1) Tap here. (2) Tap here, and enter “residual”.
20060301 7-8-1 T est, Confidence Inter v al, and Distr ibution Calculations 7-8 T est, Confidence Interv al, and Distrib ution Calculations You can use a wizard to perform test, confidence interval and distribution calculations in the Statistics application or write a program in the Program application.
20060301 7-8-2 T est, Confidence Inter v al, and Distr ibution Calculations k Example 1: 1-Sample Z T est condition : ≠ 0 : 0 : 3 o : 24.5 n : 48 u ClassP ad Operation (1) m p (2) Tap O . (3) On the New File dialog box that appears, configure the settings as described below.
20060301 k Example 2: T wo-W a y ANO V A The values in the table below are measurement results that show how the durability of a metal product is affected by changes in heat treatment time (A) and temperature (B). Experiments were conducted twice under each condition.
20060301 (10) Tap p . The above results indicate that altering the time is not significant, altering the temperature is significant, and interaction between time and temperature is highly significant.
20060301 7-9-1 Te s t s 7-9 T ests The following is a list of tests, and a description of what each one tests for. Z Test Description T est Name The Z Test provides a variety of different tests based on standard deviation based tests.
20060301 The following pages explain how to perform various statistical calculations based on the above principles. Further details about statistical theory and terminology can be found in any standard statistics textbook. Tip • Always make sure you insert one space between a command and its parameters.
20090601 7-9-3 Te s t s Calculation Result Output ≠ 0 : test condition z : z value p : p -value o : sample mean s x : sample standard deviation (Displayed only for list format.
20090601 2-Sample Z T est Menu: [Test]-[Two-Sample ZTest] Description: Tests a hypothesis relative to the population mean of two populations when the standard deviations of the two populations are known. A 2-Sample Z Test is used for normal distributions.
20060301 Example Sample A Sample B Size 40 45 Standard deviation 23.16 18.51 Mean 65.43 71.87 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Test]. (2) Select [Two-Sample ZTest] and [Variable], and then tap [Next >>]. (3) Select the 1 condition [ ≠ ] and input values.
20060301 7-9-6 Te s t s Definition of T erms Prop condition : sample proportion test condition (“ ≠ ” specifies two-tail test, “<” specifies lower one-tail test, “>” specifies upper one-tail test.
20090601 Definition of T erms p 1 condition : sample proportion test conditions (“ ≠ ” specifies two-tail test, “<” specifies one-tail test where sample 1 is smaller than sample 2, “>” specifies one-tail test where sample 1 is greater than sample 2.
20090601 k t T est 1-Sample t T est Menu: [Test]-[One-Sample TTest] Description: Tests a hypothesis relative to a population mean when population standard deviation is unknown.
20090601 (7) To display the graph, tap $ . Example 2 (calculation with parameter) Standard deviation : 80.6 Mean : 295.6 Sample size : 9 Assumed population mean : 250 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Test]. (2) Select [One-Sample TTest] and [Variable], and then tap [Next >>].
20090601 2-Sample t T est Menu: [Test]-[Two-Sample TTest] Description: This command compares the population means of two populations when population standard deviation is unknown.
20090601 7-9-11 Te s t s Calculation Result Output 1 ≠ 2 : test condition t : t value p : p -value df : degrees of freedom o 1 : sample mean of sample 1 data o 2 : sample mean of sample 2 da.
20090601 Input Example: Syntax 1 (list format) TwoSampleTTest “<”,list1,list2,1,1,Off Syntax 2 (parameter format) TwoSampleTTest “ ≠ ”,107.5,0.78,10,97.5,0.65,12,Off Linear Regression t T est Menu: [Test]-[Linear Reg TTest] Description: This command treats two groups of data as paired variables ( x , y ).
20060301 7-9-13 Te s t s Example list1 : { 38, 56, 59, 64, 74 } list2 : { 41, 63, 70, 72, 84 } • Statistics Wizard Operation (1) Input the data into [list1] and [list2] in the Stat Editor. (2) On the menu bar, tap [Calc] and then [Test]. (3) Select [Linear Reg TTest] and then tap [Next >>].
20090601 7-9-14 T ests Calculation Result Output χ 2 : χ 2 value p : p -value df : degrees of freedom Example a = 11 68 3 9 23 5 • Statistics Wizard Operation (1) J (2) Input the matrix and assign it to variable a . (3) m I (4) On the menu bar, tap [Calc] and then [Test].
20090601 7-9-15 T ests χ 2 GOF T est Menu: [Test]-[ χ 2 GOF Test] Description: This command tests whether the frequency of sample data fits a certain distribution. For example, it can be used to determine conformance with normal distribution or binomial distribution.
20101001 7-9-16 T ests k 2-Sample F T est 2-Sample F T est Menu: [Test]-[Two-Sample FTest] Description: This command tests hypotheses concerning the ratio of the population variance of two populations.
20090601 7-9-17 T ests u Pr ogram, eActivity or Main Application Command: TwoSampleFTest Command Syntax Syntax 1 (list format) “ 1 condition”, List(1), List(2), Freq(1) (or 1), Freq(2) (or 1) * “Freq” can be omitted. Doing so sets “1” for “Freq”.
20090601 7-9-18 Te s t s Example list1 : { 7, 4, 6, 6, 5 } list2 : { 6, 5, 5, 8, 7 } list3 : { 4, 7, 6, 7, 6 } • Statistics Wizard Operation (1) Input the data into [list1], [list2] and [list3] in the Stat Editor. (2) On the menu bar, tap [Calc] and then [Test].
20090601 AB df : df of Factor A × Factor B AB MS : MS of Factor A × Factor B AB SS : SS of Factor A × Factor B AB F : F value of Factor A × Factor B AB p : p -value of Factor A × Factor B Note that “AB df ”, “AB MS ”, “AB SS ”, “AB F ”, and “AB p ” are not displayed if there are no repeated data pairs.
20060301 7-10-1 Confidence Inter vals 7-10 Confidence Inter v als A confidence interval is a range of values that has a specified probability of containing the parameter being estimated. A confidence interval that is too broad makes it difficult to get an idea of where the parameter (actual value) is located.
20090601 Confidence Interval Command List k Z Confidence Interval 1-Sample Z Interval Menu: [Interval]-[One-Sample ZInt] Description: This command obtains the confidence interval for the population mean when the population standard deviation is known.
20090601 Example 2 (calculation with parameter) Mean : 300 Sample size : 6 Population standard deviation : 3 Significance level : 5% ( = confidence level : 95%) • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Interval]. (2) Select [One-Sample ZInt] and [Variable], and then tap [Next >>].
20090601 Definition of T erms C-Level : confidence level (0 < C-Level < 1) 1 : population standard deviation of sample 1 ( 1 > 0) 2 : population standard deviation of sample 2 ( .
20090601 Input Example: Syntax 1 (list format) TwoSampleZInt 0.95,15.5,13.5,list1,list2,1,1 Syntax 2 (parameter format) TwoSampleZInt 0.95,1,1.5,418,40,402,50 1-Prop Z Interv al Menu: [Interval]-[One-Prop ZInt] Description: This command obtains the confidence interval of the proportion of successes in a population.
20090601 7-10-6 Confidence Inter vals u Pr ogram, eActivity or Main Application Command: OnePropZ Int Command Syntax C-Level value, x value, n value Input Example: OnePropZInt 0.
20090601 Example Data1 : 49, sample size : 61 Data2 : 38, sample size : 62 Significance level : 5% ( = confidence level : 95%) • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Interval]. (2) Select [Two-Prop ZInt] and then tap [Next >>].
20090601 Calculation Result Output Lower : interval lower limit (left edge) Upper : interval upper limit (right edge) o : sample mean s x : sample standard deviation n : sample size Example list1 : { 1.
20090601 When the two population standard deviations are equal (pooled) When the two population standard deviations are not equal (not pooled) Definition of T erms C-Level : confidence level (0 < C.
20101001 Example list1 : { 12.207, 16.869, 25.05, 22.429, 8.456, 10.589 } list2 : { 11.074, 9.686, 12.064, 9.351, 8.182, 6.642 } Significance level : 5% ( = confidence level : 95%) • Statistics Wizard Operation (1) Input the data into [list1] and [list2] in the Stat Editor.
20060301 7-11-1 Distributions 7-11 Distrib utions Though there are a number of different types of distributions, the one most commonly used is the “Normal Distribution”, which is an essential type of distribution for statistical calculations. Other types of distributions include the Poisson distribution and geometric distribution.
20090601 7-11-2 Distributions Description Distribution Name Calculates the probability in a binomial distribution that the success will occur on a specified trial. Calculates the cumulative probability in a binomial distribution that the success will occur on or before a specified trial.
20090601 Distrib ution Command List Impor tant! Though list data can be used within the argument of the Distribution function (page 2-8-48), list data cannot be used in the argument of the Statistics Wizard operations described here or in operations that use the Distribution command in the applications.
20090601 7-11-4 Distributions u Pr ogram, eActivity or Main Application Command: NormPD Command Syntax x value, value, value Input Example: NormPD 37.5,2,35 Normal Cumulative Distrib ution Menu: [Distribution]-[Normal CD] Description: This command calculates the probability of normal distribution data falling between a and b .
20090601 7-11-5 Distributions u Pr ogram, eActivity or Main Application Command: NormCD Command Syntax Lower value, Upper value, value, value Input Example: NormCD − ∞ ,36,2,35 In verse Normal Cum ulative Distribution Menu: [Inv.
20090601 7-11-6 Distributions u Pr ogram, eActivity or Main Application Command: InvNormCD or InvNorm Command Syntax “Tail setting”, Area value, value, value Input Example: InvNorm “L”,0.
20090601 u Pr ogram, eActivity or Main Application Command: TPD Command Syntax x value, df value Input Example: TPD 2,5 Student- t Cumulative Distrib ution Menu: [Distribution]-[Student-T CD] Description: This command calculates the probability of the Student- t distribution data falling between a and b .
20090601 7-11-8 Distributions u Pr ogram, eActivity or Main Application Command: TCD Command Syntax Lower value, Upper value, df value Input Example: TCD 1.5, ∞ ,18 In verse Student- t Cum ulative Distribution Menu: [Inv. Distribution]-[Inverse T CD] Description: This command calculates the inverse of the t cumulative distribution.
20060301 7-11-9 Distributions k χ 2 Distrib ution χ 2 Probability Density Menu: [Distribution]-[ χ 2 PD] Description: This command calculates the probability density of χ 2 distribution from a specified x value.
20090601 χ 2 Cumulative Distrib ution Menu: [Distribution]-[ χ 2 CD ] Description: This command calculates the probability of χ 2 distribution data falling between a and b .
20060301 Definition of T erms pr ob : χ 2 cumulative probability ( p , 0 < p < 1) df : degrees of freedom (positive integer) Calculation Result Output x Inv : inverse χ 2 cumulative distribution Example Probability : 0.6092146 Degrees of freedom : 4 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution].
20060301 Example Data : 1.5 Degrees of freedom of numerator : 24 Degrees of freedom of denominator : 19 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [F PD] and then tap [Next >>]. (3) Input values.
20090601 Example Lower bound : 1.5 (upper bound : ∞ ) Degrees of freedom of numerator : 24 Degrees of freedom of denominator : 19 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [F CD] and then tap [Next >>].
20090601 Example Probability : 0.1852 Degrees of freedom of numerator : 24 Degrees of freedom of denominator : 19 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Inverse F CD] and then tap [Next >>].
20090601 Example Trials : 5 Specified trial : 3 Probability of success : 0.63 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Binomial PD] and then tap [Next >>]. (3) Input values. (4) Tap [Next >>].
20090601 20091101 Example Trials : 5 Lower bound : 2 Upper bound : 3 Probability of success : 0.63 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Binomial CD] and then tap [Next >>]. (3) Input values.
20090601 Example Binomial cumulative probability : 0.61 Trials : 5 Probability of success : 0.63 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Inverse Binomial CD] and then tap [Next >>]. (3) Input values.
20090601 Example Specified trial : 10 Mean : 6 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Poisson PD] and then tap [Next >>]. (3) Input values. (4) Tap [Next >>]. (5) To display the graph, tap $ .
20090601 Example Lower bound : 2 Upper bound : 3 Mean : 2.26 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Poisson CD] and then tap [Next >>]. (3) Input values. (4) Tap [Next >>]. (5) To display the graph, tap $ .
20090601 Example Poisson cumulative probability : 0.8074 Mean : 2.26 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Inverse Poisson CD] and then tap [Next >>]. (3) Input values. (4) Tap [Next >>].
20090601 Example Specified trial : 6 Probability of success : 0.4 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Geometric PD] and then tap [Next >>]. (3) Input values. (4) Tap [Next >>].
20090601 Example Lower bound : 2 Upper bound : 3 Probability of success : 0.5 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Geometric CD] and then tap [Next >>]. (3) Input values. (4) Tap [Next >>].
20090601 Example Geometric cumulative probability : 0.875 Probability of success : 0.5 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Inverse Geo CD] and then tap [Next >>]. (3) Input values.
20090601 Example Specified trial: 1 Number of trials from population: 5 Number of successes in population: 10 Population size: 20 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Hypergeometric PD] and then tap [Next >>].
20090601 • Statistics Wizard Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Hypergeometric CD] and then tap [Next >>].
20090601 Example Hypergeometric cumulative probability: 0.3 Number of trials from population: 5 Number of successes in population: 10 Population size: 20 • Statistics Wizar d Operation (1) On the menu bar, tap [Calc] and then [Distribution]. (2) Select [Inverse Hypergeometric] and then tap [Next >>].
20110401 7-12 Statistical System V ariab les Performing a statistical calculation, graphing operation, or other operation causes calculation results to be assigned to pre-arranged system variables. For more information, see the “System Variable Table” on page α -2-1.
20060301 Using the Geometr y Application The Geometry application allows you to draw and analyze geometric figures. You can draw a triangle and specify values to change the size of its sides so they are 3:4:5, and then check the measurement of each of its angles.
20060301 8-1-1 Geometr y Application Overview 8-1 Geometry Application Over view The Geometry application provides you with the following capabilities. • The [Draw] menu provides commands for drawing points, lines, polygons, regular polygons, circles, ellipses, and other geometric figures.
20060301 • Tapping the toolbar’s right arrow button displays a measurement box. The measurement box displays information for the items that are selected on the window. For example, you can view the coordinates of a point, the length and slope of a line segment, the size of an angle, etc.
20060301 Geometry Application Menus and Buttons This section describes the configuration of the Geometry application windows and provides basic information about its menus and commands. Tip • O menu items are the same for all applications. For more information, see “ Using the O Menu” on page 1-5-4.
20060301 8-1-4 Geometr y Application Overview k Edit Menu Undo or redo the last operation Undo/Redo Clear all settings fixed with the measurement box Clear Constraints Show hidden objects Show All Tog.
20060301 8-1-5 Geometr y Application Overview k View Menu T o do this: T ap this button: Or select this View men u item: Zoom Box T Q Activate the pan function for dragging the Graph window with the s.
20060301 k T oolbar Button The operation described below is available from the toolbar only. 8-1-6 Geometr y Application Overview Activate Toggle Select (page 8-3-2) Tap i and then tap a figure. Do this: T o do this: Tapping a button highlights it, indicating that the button’s function is turned on.
20060301 8-2-1 Dra wing Figures [Draw] men u commands T oolbar 8-2 Dra wing Figures This section explains how to use the Geometry application to draw various types of figures. It also explains how to use the geometric construction tools to investigate theorems and properties in Geometry.
20060301 u T o draw a line segment using the menu command (1) Tap [Draw] and then [Line Segment]. • This highlights the line segment button on the toolbar. (2) Tap the screen where you want the line segment to begin, and a point will be drawn, and then tap the point where you want it to end.
20060301 u T o draw a line segment using the toolbar (1) Tap the second down arrow on the toolbar. This opens the [Draw] menu’s icon palette. (2) Tap the line segment button on the toolbar to highlight it. (3) Tap the screen where you want the line segment to begin.
20060301 u T o add a labeled point to an e xisting line You can use the following procedure to add a labeled point to an existing line, to a side of an n-gon, to the periphery of a circle or ellipse, etc. (1) Tap [Draw] and then [Point]. • This highlights the point button on the toolbar.
20060301 8-2-5 Dra wing Figures u T o draw a ray Example: To draw a ray and then determine its y = f ( x ) linear equation by dropping the ray into the Main or eActivity application window (1) Tap [Draw] and then [Ray]. • This highlights the ray button on the toolbar.
20060301 u T o draw a vector (1) Tap [Draw] and then [Vector]. • This highlights the vector button on the toolbar. (2) Tap the point where you want the vector to start, and then its end point. • You could also tap one point, and then drag to the vector end point.
20060301 8-2-7 Dra wing Figures u T o draw a function Example: To draw y ( x ) = x 2 – 1 (1) Tap [Draw], [Function], and then [f( x )]. • This causes the Function dialog box and a soft keyboard to appear. (2) Input the function. (3) Tap [OK] to draw it.
20060301 (1) Tap [Draw], [Function], and then [Polar]. • This displays the Function dialog box and a soft keyboard as shown here. 8-2-8 Dra wing Figures u T o draw a polar equation graph Note In this example the [Function Angle] setting of the Geometry Format dialog box is set to “Radian”.
20060301 Tip • You can drag a polar curve from the Geometry window and drop it into a Main or eActivity window. Or, for example, you can drag the equation r = f ( ) from the Main or eActivity window and drop it into the Geometry window as shown below.
20101001 Tip • You can display equations such as ( x ( t ), y ( t )) on the Geometry window by dragging the graph and dropping it into the Main or eActivity window where it will appear as a matrix. 8-2-10 Dra wing Figures (2) Input the following expressions and values: x t = cos(t), y t = sin(t), tmin = 0, tmax = 360 (3) Tap [OK].
20060301 u T o draw an ellipse using the [Ellipse] - [Axes] command Note When you draw an ellipse using the [Ellipse] - [Axes] command, you need to specify the following three elements: center point, Point 1 and Point 2.
20060301 u T o draw an ellipse using the [Ellipse] - [Foci] command Note An ellipse is the locus of points, the sum of whose distances from two fixed points (called f oci ) is a constant. An ellipse drawn using the [Ellipse] - [Foci] command is drawn in accordance with this definition.
20060301 (3)Tap the point you want to specify as Point 3. • This specifies the point you tap as Point 3 and draws the ellipse. • Instead of tapping the screen to specify Point 3, you could also drag the stylus on the display.
20060301 u T o draw a hyperbola Note A h yperbola is the locus of points, the difference of whose distances from two fixed points (called f oci ) is a given value. A hyperbola drawn using the [Hyperbola] command is drawn in accordance with this definition.
20060301 • Instead of tapping the screen to specify Point 3, you could also drag the stylus on the display. As soon as you tap and hold the stylus on the screen, the line connecting Point 1 and Point 2 will bend to show the distance from the foci to the location of the stylus, as shown below.
20060301 u T o draw a parabola Note A parabola is the locus of points equidistant from a point (the focus) and a line (the directrix). A parabola drawn using the [Parabola] command is drawn in accordance with this definition.
20060301 u T o draw a polygon (1) Tap [Draw] and then [Polygon]. • This highlights the polygon button on the toolbar. (2) Tap the point from which you want the polygon to start. (3) Sequentially tap each of the vertices of the polygon. (4) Finally, tap the start point again to complete the polygon.
20090601 Inser ting T e xt Strings into the Screen You can insert text strings into the screen while working on the Geometry application window. u T o inser t a text string into a screen (1) Tap [Draw] and [Text]. • This displays the Text dialog box and a soft keyboard.
20060301 Drag and Dr op Text on the Geometry window can be dragged to the Main or eActivity window. You can also drop text from these application windows into the Geometry window. Attaching an Angle Measurement to a Figure The measurement of an angle formed by two sides of a figure can be attached to the figure as shown here.
20060301 Tip • The two sides of a figure actually forms four angles, numbered through in the illustration shown here. After attaching an angle measurement using the [Attached Angle] command, you can drag it to the position of any one of the other three angles as shown in the examples below.
20101001 Example: To drag the angle measurement attached to interior angle A of triangle ABC to its exterior supplementary angle (Dragging to the supplementary angle of the opposite angle of A) (Dragging to the opposite angle of A) 8-2-21 Dra wing Figures Tip • You can display more than one attached angle.
20060301 8-2-22 Dra wing Figures Displa ying the Measurements of a Figure You can display measurements on the Geometry application window. The measurements change dynamically as you manipulate the figure.
20060301 (3) Tap [Draw], [Measurement], and then [Angle]. • This shows the angle measurement on the screen. Method 2: Selecting the value in the measurement bo x and dropping it directl y into the Geometry application window (1) Tap G and select elements AB and AC.
20060301 (3) Select (highlight) value in the measurement box and drop it into the screen below. • This displays the specified angle measurement on the screen as shown below. Method 3: T apping the measurement icon b utton to the left of the measurement box (1) Tap G and select elements AB and AC.
20060301 Displa ying the Result of a Calculation that Uses On-screen Measurement V alues You can use the [Expression] command and the commands on the [Measurement] submenu to perform calculations using the angle value, line length, surface area, and other measurement values attached to a figure, and display the result on the Geometry window.
20060301 (8) Tap the u button to the right of the toolbar. This will display the measurement box. • The above will also display numeric labels for each measurement currently on the screen. (9) Now you can use the numeric labels to specify measurement values in the calculation you input in the measurement box.
20060301 Using the Special Shape Submenu The [Special Shape] submenu allows you to draw specially shaped figures automatically. Simply select the type of figure you want from the menu, and then touch the screen with the stylus to draw it.
20060301 u T o draw a triangle (1) Tap [Draw], [Special Shape], and then [Triangle]. • This highlights the triangle button on the toolbar. (2) Perform either of the following two operations to draw the triangle. • Tap the screen with the stylus. This automatically draws the acute triangle you selected.
20060301 (3) Perform either of the following two operations to draw the regular polygon. • Tap the screen with the stylus. This automatically draws the polygon you selected. • Place the stylus on the screen and drag diagonally in any direction. This causes a selection boundary to appear, indicating the size of the polygon that will be drawn.
20060301 Using the Construct Submenu The [Construct] submenu provides you with the means to study various geometric theorems. In addition to tools for constructing a perpendicular bisector, perpendicu.
20060301 8-2-31 Dra wing Figures u T o construct a perpendicular bisector (1) Draw a line segment. (2) Tap G , and then select the line segment. (3) Tap [Draw], [Construct], and then [Perp. Bisector]. • This draws a perpendicular bisector through your line segment.
20060301 8-2-32 Dra wing Figures u T o construct a midpoint (1) Draw a line segment. (2) Tap G , and then select the line segment. (3) Tap [Draw], [Construct], and then [Midpoint]. • This adds a midpoint to the segment. u T o construct the point of intersection of two lines (1) Draw two lines that intersect.
20060301 8-2-33 Dra wing Figures u T o construct a perpendicular line that passes through a specified point on a line (1) Draw a line segment or an infinite line. (2) Draw a point on the line through which you want the perpendicular line to pass. (3) Tap G , and then select the point and the line.
20060301 8-2-34 Dra wing Figures u T o construct a tang ent to a curve through a specified point (1) Draw a curve, such as an ellipse. (2) Tap [Draw], [Construct], and then [Tangent to Curve]. • This highlights the tangent to a curve button on the toolbar.
20060301 8-2-35 Dra wing Figures (1) Draw a line segment (AB), and a vector to use in the translation. Next, select the line segment. (2) Tap [Draw], [Construct], and then [Translation]. • This displays the Translation dialog box. (3) Tap [Select Vector].
20060301 8-2-36 Dra wing Figures u T o reflect a line segment with respect to a specified line of symmetr y (1) Draw a line segment. (2) Draw a line to use as the line of symmetry. (3) Tap G , and then select the line segment. (4) Tap [Draw], [Construct], and then [Reflection].
20060301 8-2-37 Dra wing Figures T ransformation Using a Matrix or V ector (General T ransform) General Transform lets you input a matrix and/or vector to transform a figure. The result of the transformation is drawn as a separate figure. For example, if you transform line segment AB, the line segment A’B’ will be drawn.
20060301 Tip • All of the steps in the procedure below are performed using the Geometry application only. You can also use the Main application or eActivity application to perform matrix calculations and obtain the same transformation.
20060301 (5) Tap [OK]. • This draws triangle A’B’C’, which is symmetrical to triangle ABC about the x -axis. (6) Tap anywhere outside of the triangles to deselect the currently selected triangle. Next, select triangle A’B’C’. (7) Tap [Draw], [Construct], and then [General Transform].
20060301 (9) Tap [OK]. • This performs the parallel displacement and draws triangle A’’B’’C’’. Note • In the above example, we performed the transformation and the parallel displacement operations separately. You could also perform both operations at the same time, if you want.
20060301 k (a) Operation Example The following procedure assumes that the results produced by the procedure under “General Transform Example” on page 8-2-37 are still on the Geometry application window. u ClassP ad Operation (1) On the application menu, tap J to start up the Main application.
20060301 Impor tant! • This operation is valid only when a point in the original figure and the corresponding point in the transformed figure are selected in the Geometry application. Nothing is displayed when you select points A and A’’ in the above procedure and drag them to the Main application work area.
20060301 (5) Select the triangle and drag it to the cursor location in the Main application work area. • This inputs a matrix that shows the coordinates of the triangle’s three vertices into the work area.
20060301 8-2-44 Dra wing Figures (7) Select the matrix obtained as the calculation result, and drag it to the Geometry window. • This draws a triangle that is symmetrical to the original triangle about the y -axis.
20060301 8-3 Editing Figures This section provides details about moving, copying, and deleting Geometry application figures. Selecting and Deselecting Figures Before you can execute certain editing commands, you must first select the figure you want to edit.
20060301 k Using T oggle Select Tap on the toolbar. This causes the button to become highlighted, indicating that Toggle Select is enabled. Toggle Select allows you to select and deselect figures. For example, if you have multiple figures selected, Toggle Select will allow you to deselect a single part of the selection.
20060301 8-3-3 Editing Figures u T o copy a figure (1) Draw a figure, and then select it. (2) Tap [Edit], and then [Copy]. (3) Tap anywhere on the screen to deselect the figure. (4) Tap [Edit], and then [Paste]. (5) Drag the pasted figure to the location you want.
20060301 Pinning an Annotation on the Geometry Window You can pin an annotation on the Geometry window using the Pin function. By default, annotations are ‘Unpinned’, so they pan or zoom along with the Geometry window. Pinning an annotation fixes its position on the screen so it is always displayed in the same location on the Geometry window.
20060301 Specifying the Number Format of a Measurement You can specify the number format for each measurement on the Geometry window. Example: To specify zero decimal places for measurement values on the Geometry window (1) Select (highlight) the measurement(s).
20060301 (4) Tap [OK]. • This will display the measurement value(s) you selected in the step 1 using the specified number format. Tip The initial default number format setting for measurement values is “Fix 2”. Using the Measurement Bo x Tapping the u button to the right of the toolbar displays the measurement box.
20060301 8-3-7 Editing Figures k Vie wing the Measurements of a Figure The type of information that appears in the measurement box depends on the figure that is currently selected on the display. If a line segment is selected, for example, the measurement box shows the distance, slope, angle from the x -axis, and the equation for that line.
20060301 8-3-8 Editing Figures Icon Icon Name This icon appears when this is selected: T apping this icon displays: Loc kable K e 6 Angle Yes Q t Two line segments Angle and its supplement formed by t.
20060301 8-3-9 Editing Figures (3) Select points A, D, and B. • This causes the area of the triangle ADB to appear in the measurement box. (4) Tap anywhere outside of the parallelogram to deselect the current points, and then select points A, D, and C.
20060301 8-3-10 Editing Figures (4) Tap the down arrow next to the measurement box to cycle through other measurements. • In the case of the line segment, for example, you can view its length, slope, direction, and equation. k Specifying a Measurement of a Figure The following example shows how to specify an angle of a triangle.
20060301 8-3-11 Editing Figures A highlighted check box indicates the measurement is fixed (constrained). k Fixing a Measurement of a Figure By “fixing a measurement” we mean that a constraint is placed on the figure. For example, if we fix (constrain) a point to a circle and move the circle, the point will also move.
20060301 (2) Input a new name (“Center”) in the measurement box. (3) Tap E or the check box to the right side of measurement box. • This displays the changed name on the screen as shown here.
20101001 8-4 Contr olling Geometr y Windo w Appearance This section provides information about how to control the appearance of the Geometry application window by scrolling or zooming, and by showing or hiding axes and the grid.
20060301 8-4-2 Controlling Geometr y Window Appearance Tip • You can also turn on the Integer Grid by tapping [View] and then [Integer Grid]. See page 8-4-3 for more information.
20060301 8-4-3 Controlling Geometr y Window Appearance Zooming The Geometry application provides you with a selection of zoom commands that you can use to enlarge or reduce an entire display image or a specific area of a figure.
20060301 8-4-4 Controlling Geometr y Window Appearance u T o use Zoom In and Out Example 1: To zoom in on a circle (1) Draw a circle. (2) Tap [View] and then [Zoom In], or tap W . • This enlarges the circle. Example 2: To zoom out on a circle (1) Draw a circle.
20060301 8-4-5 Controlling Geometr y Window Appearance Tip • You can also perform the Zoom In, Zoom Out, and Zoom to Fit operations by pressing ClassPad keys as described below. T o do this: Press this key: Zoom In + Zoom Out - Zoom to Fit = u T o use Zoom to Fit (1) Draw the figure or figures you want.
20060301 8-4-6 Controlling Geometr y Window Appearance Using P an to Shift the Display Ima g e Panning makes it easy to shift the display image by dragging with the stylus. Tip • The screenshot in this section uses the “Axes on, values on” setting described under “Selecting the Axis Setting” on page 8-4-2.
20060301 8-5 W orking with Animations An animation consists of one or more point/curve pairs, in which the curve can be a line segment, circle, ellipse, or function. You build an animation by selecting a point/curve pair, and then adding it to an animation.
20060301 u T o add an animation and run it (1) Plot a point and draw an arc. Or, you could draw a circle, ellipse, line segment, or function instead of an arc. (2) Select the point and arc. 8-5-2 W or king with Animations (3) Tap [Edit], [Animate], and then [Add Animation].
20060301 u T o animate a point around a cir cle (1) Plot a point and draw a circle, and then select them. 8-5-3 W or king with Animations Tip • You can repeat the above procedure to create multiple points that move simultaneously. Try this: • Draw a line segment and plot another point.
20060301 (3) Tap [Edit], [Animate], and then [Go (once)]. • This causes the point to travel around the circumference of the circle. u T o replace the current animation with a new one (1) Select the point and curve for the new animation. (2) Tap [Edit], [Animate], and then [Replace Animation].
20060301 (6) Select line segments AB and DE, enter 90 in the measurement box, and tap the check box next to the measurement box. • This fixes the angle between AB and DE at 90 degrees. 8-5-5 W or king with Animations (7) Select only line segments DE and DC, and then tap the down arrow next to the measurement box.
20060301 u T o edit an animation (1) While the animation you want to edit is on the display, tap [Edit], [Animate], and then [Edit Animations]. • This displays the animation editing window in the lower window. The upper window contains the animation that we just completed in “To trace a locus of points”.
20060301 8-5-7 W or king with Animations Measurement box T races This item shows the specified trace point. Tapping [Remove] cancels the trace point setting. (3) While the lower window is active, tap O and then [Close] to close the animation editing window.
20060301 8-5-8 W or king with Animations (6) With the line and vertex point still selected, tap [Edit], [Animate], and then [Add Animation]. (7) Now, select only one side of the triangle. (8) Tap [Edit], [Animate], and then [Go (once)]. (9) Tap # next to the measurement box.
20060301 8-6 Using the Geometry Application with Other Applications You can display the Geometry application from within the eActivity or Main application. This is a great feature that allows you to visualize the relationship between Algebra and Geometry.
20060301 (4) Select the circle and drag it to the first available line in the eActivity window. • This inserts the equation of the circle in the eActivity window. (5) You can now experiment with the data in the eActivity window. Tip • Try modifying the radius of the circle in the eActivity window.
20060301 Example 2: To drag two sides of a triangle from the Geometry window to the Main window u ClassP ad Operation (1) Tap m to display the application menu, and then tap J to start the Main application. (2) Tap 3 to display the Geometry window in the lower half of the screen.
20060301 (5) Press E . • Notice that the solution is the same as the coordinates of point A. 8-6-4 Using the Geometr y Application with Other Applications • To show the coordinates of A, just select point A. Its coordinates will be displayed in the status bar.
20060301 8-6-5 Using the Geometr y Application with Other Applications Copy and P aste In addition to drag and drop, you can also copy figures or columns from an animation table, and paste them into another application.
20090601 8-7 Managing Geometry Application Files This section covers file management operations such as save, open, delete, rename, move, etc. 8-7-1 Managing Geometr y Application Files Tip • You can also use the Variable Manager (page 1-8-1) to manage Geometry application files.
20060301 (3) Enter the file name you want to find and then tap [Search]. • File names that match the one you enter become highlighted on the display. Tapping [Open] opens the highlighted file. • To search for the next occurrence of the file name, tap [Search] again and then tap [Next] on the Search dialog box.
20060301 u T o save a file under a different name (1) Tap [File] and then [Save]. • This displays the Files dialog box. 8-7-3 Managing Geometr y Application Files (4) Tap [Save]. u T o delete a file (1) Tap [File] and then [Open]. • This displays the Files dialog box.
20060301 8-7-4 Managing Geometr y Application Files u T o rename a file (1) Tap [File] and then [Open]. • This displays the Files dialog box. (2) Tap the name of the file you want to rename so it is selected. (3) Tap [File] and then [Rename]. • This displays the Rename dialog box.
20060301 u T o delete a folder W arning! Deleting a folder also deletes all files inside of it. Please double-check to make sure you no longer need the contents of a folder before deleting it. (1) Tap [File] and then [Open]. • This displays the Files dialog box.
20060301 9 Using the Numeric Solver Application This chapter provides information about the functions of the Numeric Solver application, referred to as NumSolve, and explains how to perform Numeric Solver procedures. Numeric Solver lets you obtain the value of any variable in an equation without the need to transform or simplify the equation.
20060301 9-1-1 Numeric Solver Application Ov er view 9-1 Numeric Solver Application Overview This section describes the configuration of the Numeric Solver application windows and provides basic information about Numeric Solver menu and commands.
20060301 k T oolbar The toolbar provides you with easy access to the Main application, 3D Graph Editor, Graph Editor, and, of course, Solve. k Dragging an Expression fr om the Other Application to the.
20060301 9-2 Using Numeric Solver Numeric Solver lets you obtain the value of any variable in an equation, without the need to transform or simplify the equation. Example: t is the time it would take for an object thrown straight up with initial velocity v to reach height h.
20060301 9-2-2 Using Numeric Solver (6) Tap 1 , or tap [Solve] and then [Execute] on the Numeric Solver menu. • The [Left–Right] value shows the difference between the left side and right side results. Tip • Numeric Solver solves functions by calculating approximations based on Newton’s method.
20060301 9-2-3 Using Numeric Solver (6) Tap a then [Convergence]. (7) Enter 10 and then tap [OK]. (8) Tap 1 , or tap [Solve] and then [Execute] on the Numeric Solver menu.
20060301 Using the eActivity Application An eActivity is both a documentation tool, and a student notebook. As a documentation tool, a teacher can create electronic examples and practice problems with accompanying text, mathematical expressions, 2D and 3D graphs, geometric drawings, and tables.
20060301 10-1-1 eActivity Application Ov er view 10-1 eActivity Application Overview The eActivity application lets you input and edit text, mathematical expressions, and ClassPad application data, and save your input in a file called an “eActivity”.
20060301 eActivity Application Menus and Buttons This section explains the operations you can perform using the menus and toolbar buttons of the eActivity application.
20060301 k Inser t Menu k Action Menu 10-1-3 eActivity Application Ov er view Calculation Row — — — ~ 3 $ ! % @ ^ * y ( 1 & _ Q W Text Row Geometry Link Insert an application data strip Stri.
20060301 10-1-4 eActivity Application Ov er view eActivity Application Status Bar The information that appears in the eActivity application status bar is same as the Main application status bar information. See “Using Main Application Modes” on page 2-1-4.
20110401 10-1-5 eActivity Application Ov er view Tip When the shift operation is assigned to the ClassPad z key, you can select a range of characters with the left and right cursor keys. Simply press the ClassPad z key and then press e or d . Each press of the cursor key will select (highlight) the next character in the applicable direction.
20060301 10-2 Creating an eActivity This provides a general overview of eActivity operations, from starting up the eActivity application to saving an eActivity file.
20090601 (3) After the eActivity is the way you want, tap [File] and then [Save]. • This displays the Files dialog box. This is a list of folders and files. Select the name of the folder where you want to save the eActivity file by tapping it. Tap here to create a new folder.
20111001 Managing eActivity Files This section covers file management operations like save, open, delete, rename, move, etc. Performing one of these operations displays a Files dialog box like the ones shown below. The buttons that appear in the dialog box depend on the operation you performed to display the Files dialog box.
20060301 10-3 Inser ting Data into an eActivity The following describes the four types of data you can insert into an eActivity. 10-3-1 Inser ting Data into an eActivity Inser ting a T e xt Row Text rows make it possible to display and edit text directly in the eActivity window.
20060301 Tip • The toolbar button for switching between input modes appears as u while the cursor is located in a text row, and while the cursor is located in a calculation row. 10-3-2 Inser ting Data into an eActivity u T o inser t a T ext Ro w (1) Tap to change a row to the Text Input mode.
20060301 10-3-3 Inser ting Data into an eActivity Impor tant! • You cannot bold numeric expressions of a natural display expression that you input with the 2D soft keyboard. Inser ting a Calculation Row Calculation rows let you perform calculations in an eActivity.
20060301 Tip • The toolbar button for switching between input modes appears as u while the cursor is located in a text row, and while the cursor is located in a calculation row. Line 1: Expression you input Line 2: Result u T o inser t a Calculation Row (1) Tap u to change a row from the Text Input mode to the Calculation Input mode.
20060301 10-3-5 Inser ting Data into an eActivity Changing “10 S b ” to “20 S b ” in the example below and pressing E causes all of the expressions under “20 S b ” to be re-calculated. • Tap to the right of “10”. • Press K twice, and then input “20”.
20060301 10-3-6 Inser ting Data into an eActivity k Inserting an Application Data Strip into an eActivity Tap the [Insert] menu or the right most toolbar down arrow button, and then select the command or button that corresponds to the type of application data you want to insert.
20060301 Example 1: To insert a Geometry data strip u ClassP ad Operation (1) From the eActivity menu, tap [Insert], [Strip], and then [Geometry]. • This inserts a Geometry data strip, and displays the Geometry window in the lower half of the screen.
20060301 (4) Tap the title box of the Geometry data strip and enter the title you want. 10-3-8 Inser ting Data into an eActivity • If you want to input more data into the eActivity, tap the next line or use the [Insert] menu to select the type of strip you want to insert next.
20060301 (3) After you finish performing the operation you want on the Graph window, tap S , or tap O and then [Close] to close the Graph window. You will also need to tap the Graph Editor window, and then select O then [Close] to return to the eActivity window.
20060301 Example 3: To use Notes in an eActivity Notes is a simple text editing tool for taking notes or including in-depth explanations within an eActivity. You can use Notes to store information for later use, or as a place to jot down ideas. u ClassP ad Operation (1) On the eActivity window, tap [Insert], [Strip], and then [Notes].
20060301 10-3-11 Inser ting Data into an eActivity Tip • You can use the Notes window to enter notes, homework assignments, in-depth details, etc. • All information you enter is treated as text.
20060301 u ClassP ad Operation (1) On the eActivity window, tap [Insert], [Strip], and then [Picture]. • This will insert a Picture strip and display the Picture window in the lower half of the display. (2) Tap [File] - [Open]. • This displays the Files dialog box.
20060301 (4) Tap [Open]. • This will display the PICT data you selected in the Picture window. • You can use the File menu and toolbar to perform following operations while the Picture window is on the display.
20060301 Strip Help T e xt You can add help text to any strip. A strip that has help text is indicated by a button. Tapping a button will display the help window along with the application window. u T o add help text to a strip (1) Tap the title box of the strip to which you want to add help text.
20060301 Mo ving Information Between eActivity and Applications An eActivity is like an interactive notebook or textbook that allows you to explore the world of mathematics right on the page. You can take almost any expression from an eActivity page and send it to another application.
20060301 10-3-16 Inser ting Data into an eActivity k Drag and Dr op You can drag and drop text or mathematical expressions between eActivity and other applications. You can also drag and drop within an eActivity. Depending on the application, you can drag text and mathematical expressions from an eActivity to another application window.
20060301 Inser ting a Geometry Link Row A Geometry Link row dynamically links data in the Geometry window with the corresponding data in an eActivity. You can display lines and figures drawn in Geometry as values and mathematical expressions in a Geometry Link row.
20060301 (4) Tap [Insert] and then [Geometry Link]. • This inserts a Geometry Link row in the next line. 10-3-18 Inser ting Data into an eActivity (5) Tap the Geometry window to make it active. (6) Tap one side of the triangle to select it, and then drag it to the link symbol in the eActivity window.
20060301 10-4 W orking with eActivity Files You can perform basic file operations on eActivity files. You can open previously saved files, edit an existing file, and save a file under a new name. Opening an Existing eActivity Perform the following steps to open an existing eActivity file.
20060301 Editing the Contents of an eActivity To edit an eActivity, you can use the same procedures that you used when you created it. For more information, see “10-3 Inserting Data into an eActivity”. Expanding an Application Data Strip Tapping the expand button of an application data strip expands the application data in the lower window.
20090601 u T o replace the original eActivity file with the newly edited ver sion (1) On the eActivity window, tap [File] and then [Save]. • This displays the Files dialog box. 10-4-3 W or king with eActivity Files (2) Tap [Save] without changing the displayed file name.
20060301 u T o save an edited eActivity under a different name (1) On the eActivity window, tap { , or tap [File] and then [Save]. • This displays the Files dialog box. (2) If you want, tap the name of the folder where you want the new eActivity file to be saved.
20060301 10-5 T ransf erring eActivity Files Note the following precautions when using the ClassPad’s data communication function to transfer eActivity files with another ClassPad unit or a computer.
20110901 k T ransferring eActivity Files from Another ClassPad Unit To transfer an eActivity file from another ClassPad unit, your ClassPad unit must support all of the application data strips that are supported by the sending unit.
20110901 Using the Presentation Application The Presentation application lets you capture screenshots of other application windows. Screenshots can be used in the classroom or for other presentations simply by connecting the ClassPad to a CASIO Projector.
20060301 11-1-1 Presentation Application Ov er view 11-1 Presentation Application Overview The Presentation application lets you capture screenshots produced by the ClassPad, and arrange them into a “presentation” that you can play back. With this application you can build and play a presentation, and edit the contents of a presentation.
20090601 Presentation Application Window Tapping P on the application menu starts the Presentation application and displays its initial screen. • Selecting [Disabled] will cause the [Screen Copy To] setting on the Presentation and Communication dialog boxes to change automatically to [Outer Device].
20060301 Presentation Application Menus and Buttons This section explains the operations you can perform using the menus and buttons of the Presentation application’s initial screen.
20060301 Screen Capture Precautions Note the following precautions when capturing screens for a presentation. • The operation that is performed when you tap h depends on the current [Screen Copy To] setting as described below.
20060301 11-2 Building a Presentation Presentations are created by capturing screenshots that are produced by the applications of the ClassPad. Before actually beginning to capture the screenshots, it.
20060301 (6) With the screen you want to capture on the display, tap h . • The currently displayed screen is captured as soon as you tap h . Its image is added to the pages of the presentation file you selected in step (3). • If the capture is successful, “ ” appears in the status bar for about one second.
20060301 u T o inser t a blank page into a presentation (1) On the Presentation application initial screen, tap the button next to the presentation file into which you want to insert the blank page, so it is selected. (2) Tap a and then [White Screen].
20060301 11-3 Managing Presentation Files After you create a presentation file, you can rename it or delete it. u T o rename a presentation file (1) On the Presentation application initial screen, tap the name of the file you want to rename so it is selected.
20060301 11-3-2 Managing Presentation Files Impor tant! • PICT format image data files (PICT data type variables) captured with the h icon are stored in folder that is created when you create a Presentation file. • The “Presystm” folder (whose contents you can view with the Variable Manager) contains files for managing presentations.
20060301 11-4 Pla ying a Presentation This section explains the various methods you can use to play a presentation. Using A uto Play With auto play, the pages of the presentation are scrolled automatically at a fixed interval.
20060301 Using Manual Pla y With manual play, you control when page change operations are performed during presentation play. Manual play lets you scroll forward or back through presentation pages, and you can display a pointer on a page.
20060301 (4) Tapping while the final page of the presentation is displayed causes the message “End of Files” to appear in the status bar. • Tapping while the message “End of Files” is in the status bar exits the manual play operation and displays the Presentation initial screen.
20060301 11-5 Editing Presentation P ages This section explains how to use the Editing mode of the Presentation application to modify the pages of an existing presentation. About the Editing T ool P alette An editing tool palette appears on the display whenever you enter the Editing mode.
20060301 (3) Use the editing tool palette buttons to edit the pages. • For details about editing operations, see “Editing Operations” on page 11-5-3. • You can drag the editing tool palette and page scroll buttons to any location on the display.
20060301 Editing Operations This section provides details about the page editing operations you can perform with the Presentation application’s editing tool palette. u T o move a page (1) Enter the Editing mode of the Presentation application (page 11-5-1).
20060301 u T o copy and paste a page (1) Enter the Editing mode of the Presentation application (page 11-5-1). (2) Use the page scroll buttons to display the page you want to copy, and then tap t . • This copies the currently displayed page to the clipboard.
20060301 (6) To save the result of the text insert operation, tap { and then tap [OK] on the confirmation dialog box that appears. u T o clear the bottom half of the screen (1) Enter the Editing mode of the Presentation application (page 11-5-1). (2) Use the page scroll buttons to display the page whose bottom half you want to clear.
20060301 u T o draw a straight line or an arr ow on a page (1) Enter the Editing mode of the Presentation application (page 11-5-1). (2) Use the page scroll buttons to display the page on which you want to draw a straight line or arrow. (3) Tap i if you want to draw a line or o if you want to draw an arrow.
20060301 Using the Eraser The eraser allows you to erase parts of an image, text, arrows, or lines you have added to a page. u T o erase par t of a pag e with the eraser (1) Enter the Editing mode of the Presentation application (page 11-5-1). (2) Use the page scroll arrows to display the page that contains the figures you want to erase.
20060301 11-6 Configuring Presentation Preferences You can use the procedure below to configure various Presentation application preferences. u ClassPad Operation (1) Tap O , and then [Presentation]. • This displays the Presentation dialog box. (2) Use the Presentation dialog box to configure the preferences you want.
20060301 Tip • The following examples show the area of the screen that is captured when you tap h while the [Half Screen Capturing] check box is selected.
20060301 11-7 Presentation File T ransfer A presentation file is actually a kind of user folder (called a “presentation folder”) that contains the images that make up the presentation. This folder may be transferred to another ClassPad unit or a computer in order to play the presentation.
20060301 Chapter 12 Using the Pr ogram Application The Program application comes in handy when you need to perform the same calculation a number of times.
20060301 12-1 Program Application Overvie w The Program application consists of a Program Editor for inputting and editing programs, and a Program Loader for loading and executing existing programs. Star ting Up the Program Application Use the following procedure to start up the Program application.
20060301 12-1-2 Program Application Ov er view k Pr ogram Loader Window Menus and Buttons T o do this: T ap this button: Or select this menu item: Display the Program Loader window — O - Program Loa.
20090601 File type N: Program file T : Text file F : User-defined function file File name Parameter variables This box can be used to specify variable names used in user-defined functions or programs. For details, see “Configuring Parameter Variables and Inputting Their Values” on page 12-2-7.
20060301 k Pr ogram Editor Window Menus and Buttons The following describes the menu and button operations you can perform on the Program Editor window.
20090601 T o do this: Select this menu item: Input a command from the [Ctrl] menu • For details about each command, see “12-6 Program Command Reference”. Input a command from the [I/O] menu • For details about each command, see “12-6 Program Command Reference”.
20090601 T o do this: Select this menu item: Input a command from the [Misc] menu • For details about each command, see “12-6 Program Command Reference”.
20090601 T o do this: Select this menu item: Input a command from the [Misc] menu • For details about each command, see “12-6 Program Command Reference”.
20060301 12-2 Creating a New Pr ogram This section explains the steps you need to perform in order to create a new program. General Pr ogramming Steps The following are the general steps for creating and running a program. 1. Open a new file. • Tap O , or select the [Edit] menu and then [New File].
20060301 u ClassP ad Operation (1) Tap m to display the application menu, and then p . (2) Tap O , or tap [Edit] and then [New File]. (3) Configure the settings for the new file as described below. • Leave the [Type] setting as “Program(Normal)”.
20060301 12-2-3 Creating a New Prog ram (6) After the program is the way you want, tap { , or tap [Edit] and then [Save File] to save it. • To run this program see “Running a Program” on page 12-2-5. • If a message appears when you try to save the program, make the necessary corrections and try again.
20060301 k Specifying the File T ype Tapping O or tapping [Edit] and then [New File] on the Program Editor window displays the dialog box shown above. Tap the [Type] down arrow button and then select one of the options described below from the list of options that appears.
20060301 12-2-5 Creating a New Prog ram Running a Pr ogram The following procedure shows how to run the sample program we input under “Creating and Saving a Program” on page 12-2-1. u ClassP ad Operation (1) Display the Program Loader window. • From the Program Editor window, tap ) , or tap O and then [Program Loader].
20060301 12-2-6 Creating a New Prog ram P ausing Program Ex ecution You can specify where execution of a program should pause by including either a Pa u s e command or a Wa i t command inside the program. k Using the P ause Command A P ause command causes program execution to pause when it reaches that point.
20060301 12-2-7 Creating a New Prog ram Configuring P arameter V ariables and Inputting Their V alues If you input the names of variables used in a program into the parameter variable box when inputti.
20060301 Using Subr outines Including the name of another program file inside of a program causes execution to jump to the specified program file. The program that execution jumps from is called the “main program”, while the program to which execution jumps is called a “subroutine”.
20060301 Example 1: Jumping to a subroutine without assigning values to the subroutine’s parameter variables Main Program Input A Input B Sub1( ) ← Jumps to subroutine program “Sub1” Print C S.
20060301 12-3 Debug ging a Pr ogram A programming error that causes a program to behave in a manner not intended by the writer of the program is called a “bug”. Finding and eliminating such errors is called “debugging the program”. Any of the following conditions can indicate that your program has a bug and requires debugging.
20060301 Modifying an Existing Pr ogram to Create a New One You can use the procedure described below to recall an existing program, modify it, and then run the result as a new program. This helps reduce key input requirements. The following shows how to modify the “OCTA” program we created on page 12-2-1 to handle tetrahedrons.
20060301 (3) Select the program you want to open and edit, as described below. 12-3-3 Debugging a Prog ram (4) Tap [OK]. Folder Type Tap the down arrow button, and then select “Program(Normal)”. Tap the down arrow button, and then select the folder that contains the program you want to edit.
20060301 (7) After saving the program, tap ) , or tap O and then [Program Loader] to display the Program Loader window. (8) On the dialog box that appears, tap the [Name] down arrow button, and then tap the name of the file you input in step (6) (TETRA).
20060301 Sear ching for Data Inside a Pr ogram You can search for data inside a program by specifying a keyword. Example: To search for the letter “A” within the “OCTA” program u ClassP ad Operation (1) From the Program Editor window, select the program you want to search (“OCTA” in this example).
20060301 12-4 Managing Files Renaming a File Use the following procedure when you want to change the name of a file. u ClassP ad Operation (1) Tap 5 to display the Variable Manager. • This displays a list of folders. • You may need to tap the icon and scroll the toolbar to see the 5 icon.
20060301 Changing the File T ype You can use the following procedures to change the file type. u T o change a pr ogram file to a text file While a program file is open, tap [Edit], [Mode Change], and then [ ' Text]. u T o change a text file to a pr ogram file While a text file is open, tap [Edit], [Mode Change], and then [ ' Normal].
20060301 12-5 User -defined Functions ClassPad lets you configure calculation operations as user-defined functions, which can then be used inside of numeric expressions just like its built-in functions. User-defined functions can also be called up in other applications.
20060301 (6) After the function is the way you want, tap { , or tap [Edit] and then [Save File] to save it. Tip • A user-defined function can contain only a single mathematical expression.
20060301 Tip • You can include up to 99 arguments in a function. • If you do not specify a folder, the function is stored in the current folder. • A function defined using the Define command can contain only a single expression. You cannot link multiple expressions or commands using colons ( : ) or carriage returns.
20060301 Editing a User -defined Function To edit an existing user-defined function, use the same procedures as those described under “Modifying an Existing Program to Create a New One” on page 12-3-2. Editing procedures are the same, regardless of whether you originally created the function using the Define command or Program Editor.
20060301 12-6 Program Command Ref erence Using This Reference The following table shows the conventions that are used in the descriptions of this section. 12-6-1 Program Command Ref erence A boldface word, like Input It means this: If y ou see something like this: The boldface word is a command.
20060301 Pr ogram Application Commands k Pr ogram Notation (Carriage Return) Function: Performs a carriage return operation. Description In Program Editor, tap the w button to input a carriage return. • The carriage return can be used in a user program.
20060301 k Input GetKe y Syntax: GetKey <variable name> Function: This command assigns the code number of the last key pressed to the specified variable. Description • This command assigns the code number of the last key pressed to the specified variable.
20060301 12-6-4 Program Command Ref erence GetP en Syntax: GetPen <variable name 1>, <variable name 2> Function: This command assigns the coordinates of the point tapped on the screen to a specified variable.
20060301 InputFunc Syntax: InputFunc <user-defined function name> (<argument >[,<argument >…]) [,"<string 1>"[,"<string 2>"]] Function: When program execution reaches the InputFunc command, the user is prompted to input the contents of the user-defined function.
20060301 12-6-6 Program Command Ref erence k Output About the Program Output windo w The “Program Output window” shows text displayed by program execution. The term “Program Output window” does not include dialog boxes displayed by Message and other commands.
20060301 Locate Syntax 1: Locate < x -coordinate>, < y -coordinate>, <expression> Syntax 2: Locate < x -coordinate>, < y -coordinate>, "<string>" .
20060301 PrintNatural Syntax: PrintNatural <expression>[,"<string>"] Function: This command pauses program execution and displays the result of the specified expression in natural format.
20060301 12-6-9 Program Command Ref erence Break Syntax: Break Function: This command terminates a loop and causes execution to advance to the next command following the loop process. Description • Break terminates a loop and causes execution to advance to the next command following the loop process.
20060301 For ~ T o ~ (Step ~)Next Syntax: For <expression 1> S <control variable name> To <expression 2> [Step <expression 3>] [<statement>] … Next <expression 1> is the initial value, <expression 2> is the end value, and <expression 3> is the step.
20060301 If~Then~ElseIf~Else~IfEnd Syntax 1: If <expression> Then [<statement>] … IfEnd Function 1 • If the expression is true, the statement in the Then block is executed. After that, execution advances to the next statement after IfEnd .
20060301 Syntax 4: If <expression> Then [<statement>] … ElseIf <expression> Then [<statement>] … Else [<statement>] … IfEnd Function 4 • If the expression is true, the statement in the If Then block is executed.
20060301 Description • You can perform manual operations on the ClassPad display screen while program execution is paused by the Pa u s e command. • Program execution remains paused until you tap the button on the status bar, or until six minutes pass (after which program execution resumes automatically).
20060301 Switch~Case~Default~SwitchEnd Syntax: Switch <expression 1> Case <expression 2> [<statement>] … Break Case <expression 3> … [<statement>] … Bre.
20060301 While~WhileEnd Syntax: While <expression> [<statement>] … WhileEnd <expression> is a condition that evaluates to true or false. Function: The specified statements are repeated as long as the condition is true. Description • The statements between While~WhileEnd are repeated as long as the condition is true.
20060301 ClrGraph Syntax: ClrGraph Function: Clears the Graph window and returns View Window parameters to their initial default settings. Cls Syntax: Cls Function: Clears sketch elements (lines and other figures sketched on the Graph window), and graphs drawn using drag and drop.
20060301 DrawGraph Syntax: DrawGraph [<expression>] Function: Graphs the selected expression or an expression specified as a parameter. Description: <expression> has a y = type expression on the right side. Graphing of any other type of expression is not supported by this command.
20060301 GTSelOn Syntax: GTSelOn <graph number> Function: Selects a graph expression. Description: Graph number range: 1 to 100 Horizontal Syntax: Horizontal <y -coordinate> Function: Draws a horizontal line. In verse Syntax: Inverse < y or x graph number> Function: Graphs the inverse of a function.
20060301 PlotOff Syntax: PlotOff < x -coordinate>, < y -coordinate> Function: Turns off display of the plot at the specified coordinates. PlotOn Syntax: PlotOn < x -coordinate>, < y -coordinate> Function: Turns on display of the plot at the specified coordinates.
20060301 PTThick Syntax: PTThick <graph number> Function: Specifies “Thick” ( ) as the graph line type. Description: Graph number range: 1 to 100 PxlChg Syntax: PxlChg < x -dot>, < y -dot> Function: Toggles display of the specified pixel on and off.
20060301 RclVWin Syntax: RclVWin <variable name> Function: Recalls View Window values, which were previously saved under the specified name. Example: RclVWin WIN1 SheetActive Syntax: SheetActive { <sheet number> } "<sheet name>" Function: Selects the sheet that contains the expression to be graphed.
20060301 StoPict Syntax: StoPict <picture name> Function: Assigns a name to a Pict image and stores it. Example: StoPict Pict1 StoVWin Syntax: StoVWin <variable name> Function: Assigns a name to View Window values and stores them.
20060301 ViewWindo w Syntax1: ViewWindow LogP { x y xy } , [xmin value], [xmax value], [xscale value], [ymin value], [ymax value], [yscale value], [t min value], [t max value], [t step value] Syntax 2: ViewWindow CallUndef Syntax 3: ViewWindow Function: Syntax 1: Specifies View Window values.
20060301 k 3D ClearSheet3D Syntax: ClearSheet3D { <sheet number> } "<sheet name>" Function: Deletes the sheet name and expressions on the sheet, and returns its settings to their default values. Omitting the argument causes all sheets to be cleared.
20060301 k Conics DrawConics Syntax: DrawConics Function: Draws a conics graph based on the data registered on the Conics Editor window. k Sequence DispDfrTbl Syntax: DispDfrTbl Function: Creates and displays an arithmetic sequence table. DispDQTbl Syntax: DispDQTbl Function: Creates and displays a progression of difference table.
20060301 DrawSeqCon, Dra wSeqPlt Syntax: DrawSeqCon DrawSeqPlt Function: Graphs a recursion expression whose vertical axis is a n ( b n or c n ) and whose horizontal axis is n using a generated number table, in accordance with the conditions of each command.
20060301 SeqSelOn Syntax: SeqSelOn a n +1 a n +2 b n +1 b n +2 c n +1 c n +2 a n E b n E c n E Function: Selects the specified sequence expression. Specifying “ a n E”, “ b n E”, or “ c n E” as the argument activates [Explicit]. Specifying any other argument activates [Recursive].
20060301 DefaultListEditor Syntax: DefaultListEditor Function: Initializes the sort sequence and display contents of the list on the Stat Editor window (list1 to list6). DispListEditor Syntax: DispListEditor Function: Displays the Stat Editor window. DispStat Syntax: DispStat Function: Displays previous statistical calculation results.
20060301 LinearReg Syntax: LinearReg x List, y List[,[FreqList (or 1)][, [< yn >][, { On Off } ]]] Function: Performs y = a ⋅ x + b regression.
20060301 MultiSortA Syntax 1: MultiSortA <list name> Syntax 2: MultiSortA <base list name>, <subordinate list name>, <subordinate list name>, ... Function: Sorts a statistical list in ascending order. Description • Syntax 1 performs a simple list sort.
20060301 QuadReg Syntax: QuadReg x List, y List[,[FreqList (or 1)][,[< yn >][, { On Off } ]]] Function: Performs y = a ⋅ x 2 + b ⋅ x + c regression.
20060301 StatGraph Syntax 1: StatGraph <StatGraph number 1 to 9>, { On Off } , Graph Type 1, x List, y List, FreqList (or 1), Plot Type Syntax 2: StatGraph <StatGraph number 1 to 9>.
20060301 12-6-33 Program Command Ref erence k Setup DefaultSetup Syntax: DefaultSetup Function: Initializes all setup data settings. SetAxes Syntax: SetAxes { On Number Off } Function: Turns display of Graph window axes on or off.
20060301 SetCoord Syntax: SetCoord { On Off } Function: Turns display of Graph window pointer coordinates on or off. SetCoordOff3D Syntax: SetCoordOff3D Function: Turns off display of pointer coordinates for 3D graphing. SetCoordP ol3D Syntax: SetCoordPol3D Function: Specifies use of polar coordinates for coordinate display during 3D graphing.
20060301 SetDispGCon Syntax: SetDispGCon { On Off } Function: Turns display of graph controller arrows during graphing on or off. SetDrawCon Syntax: SetDrawCon Function: Specifies graphing by connecting plotting points with lines. SetDrawPlt Syntax: SetDrawPlt Function: Specifies graphing by plotting points only.
20060301 SetLabel3D Syntax: SetLabel3D { On Off } Function: Turns display of Graph window axis labels for 3D graphing on or off. SetLeadCursor Syntax: SetLeadCursor { On Off } Function: Turns display of the leading cursor during graphing on or off.
20060301 SetSequence Syntax: SetSequence { On Off StepDisp } Function: Turns display of expressions created after graphing on or off or specifies “step display” ( StepDisp ). Description: When StepDisp is selected, the expression does not appear until you press E .
20060301 SetTV ariab le Syntax: SetTVariable { <list name> } TableInput Function: Specifies the variable reference location for table generation. Description: Use T ableInput to specify a range and generate a table. Set Σ disp Syntax: Set Σ disp { On Off } Function: Turns display of subtotals for tables on or off.
20060301 DelFolder Syntax: DelFolder <folder name> Function: Deletes a folder. DelV ar Syntax: DelVar <variable name>, <variable name> ... Function: Deletes a variable. Description: Deletes all variables, regardless of type (program, etc.
20060301 Local Syntax: Local <variable name>, <variable name> ... Function: Defines a local variable. Description The following are the merits of local variables. • Since local variables are deleted automatically, use of local variables for temporary storage avoids unnecessary use of available memory.
20110401 SetFolder Syntax: SetFolder <folder name> [,<storage variable name>] Function • Makes the specified folder the current folder. Including a variable name at the end of this command assigns the name of the previous current folder to the variable as a text string.
20110401 ExpT oStr Syntax: ExpToStr <expression>,<storage variable name> Function: Converts the result of an input expression to a string and assigns the string to the specified variable.
20060301 StrJoin Syntax: StrJoin "<string 1>", "<string 2>", <storage variable name> Function: Joins "<string 1>" and "<string 2>" and then assigns the resulting string to the specified variable.
20060301 StrRotate Syntax: StrRotate "<string>", <storage variable name> [, n ] Function: Rotates the left side part and right side part of a string at the n th character, and assigns the resulting string to the specified variable.
20060301 k Other CloseComP or t38k Syntax: CloseComPort38k Function: Closes the 3-pin COM port. Example: See the GetV ar38k command. GetV ar38k Syntax: GetVar38k <variable name> Function: Receives variable names and variable contents. Description • The OpenComP or t38k command must be executed before this command is executed.
20060301 OpenComP or t38k Syntax: OpenComPort38k Function: Opens the 3-pin COM port. Example: See the GetV ar38k command on page 12-6-45. Receive38k Syntax: Receive38k <variable name> Function: Receives EA-200 data. Description • The OpenComP or t38k command must be executed before this command is executed.
20060301 12-7 Including ClassP ad Functions in Programs Inc luding Graphing Functions in a Program Graphing functions let your program graph multiple equations, or overlay multiple graphs on the same screen. Example: DefaultSetup ClrGraph ViewWindow 0, 7.
20060301 Inc luding 3D Graphing Functions in a Program The methods for using 3D graphing functions in a program are identical to those for normal (non-3D) graphing functions, except that you can only graph one 3D graph at a time. For information about commands that are unique to 3D graphing, see “3D” on page 12-6-24.
20101001 12-7-3 Including ClassP ad Functions in Programs Inc luding Recursion T able and Recur sion Graph Functions in a Program Recursion table and recursion graph functions can be included in a program to generate number tables and draw graphs. Example: DefaultSetup ViewWindow 0, 6, 1, – 0.
20060301 12-7-4 Including ClassP ad Functions in Programs Inc luding Statistical Graphing and Calculation Functions in a Program Including statistical graphs and calculation functions in a program allows the program to draw statistical graphs and display statistical calculation results.
20060301 u T o use statistical calculation functions You can perform the following types of statistical calculations using program commands. • Single-variable statistics • Paired-variable statistics • Regression • Tests • Confidence interval • Probability See “Chapter 7 – Using the Statistics Application” for more information.
20090601 Chapter 13 Using the Spreadsheet Application The Spreadsheet application provides you with powerful, take- along-anywhere spreadsheet capabilities on your ClassPad.
20090601 13-1-1 Spreadsheet Application Ov er view 13-1 Spreadsheet Application Over view This section describes the configuration of the Spreadsheet application window, and provides basic information about its menus and commands. Star ting Up the Spreadsheet Application Use the following procedure to start up the Spreadsheet application.
20060301 13-2-1 Spreadsheet Application Menus and Buttons 13-2 Spreadsheet Application Menus and Buttons This section explains the operations you can perform using the menus and buttons of the Spreadsheet application window. • For information about the O menu, see “Using the O Menu” on page 1-5-4.
20090601 13-2-2 Spreadsheet Application Menus and Buttons k Edit Menu T o do this: Select this [Edit] menu item: Undo the last action, or redo the action you have just undone Undo/Redo Display a dialo.
20090601 k Spreadsheet T oolbar Buttons Not all of the Spreadsheet buttons can fit on a single toolbar, tap the u / t button on the far right to toggle between the two toolbars. T o do this: T ap this button: Toggle the selected cell(s) between decimal (floating point) and exact display* 1 .
20090601 13-3-1 Basic Spreadsheet Window Operations 13-3 Basic Spreadsheet Window Operations This section contains information about how to control the appearance of the Spreadsheet window, and how to perform other basic operations. About the Cell Cursor The cell cursor causes the current selected cell or group of cells to become highlighted.
20060301 13-3-2 Basic Spreadsheet Window Operations (2) On the dialog box that appears, tap the [Cursor Movement] down arrow button, and then select the setting you want.
20090601 13-3-3 Basic Spreadsheet Window Operations k J umping to a Cell You can use the following procedure to jump to a specific cell on the Spreadsheet screen by specifying the cell’s column and row. u ClassP ad Operation (1) On the [Edit] menu, select [Goto Cell].
20090601 13-3-4 Basic Spreadsheet Window Operations Hiding or Displa ying the Scrollbars Use the following procedure to turn display of Spreadsheet scrollbars on and off. By turning off the scrollbars, you make it possible to view more information in the spreadsheet.
20090601 13-3-5 Basic Spreadsheet Window Operations Tap a row heading to select the row. Tap a column heading to select the column. Tap a cell to select it. Tap here to select the entire spreadsheet. Selecting Cells Before performing any operation on a cell, you must first select it.
20060301 13-3-6 Basic Spreadsheet Window Operations Using the Cell Viewer Window The Cell Viewer window lets you view both the formula contained in a cell, as well as the current value produced by the formula. While the Cell Viewer window is displayed, you can select or clear its check boxes to toggle display of the value and/or formula on or off.
20090601 13-4-1 Editing Cell Contents 13-4 Editing Cell Contents This section explains how to enter the edit mode for data input and editing, and how to input various types of data and expressions into cells.
20090601 • You can tap the data input toolbar buttons to input letters and symbols into the edit box. Entering the Edit Mode There are two ways you can enter the edit mode: • Tapping a cell and th.
20090601 k Tapping a cell and then inputting something from the keypad • This enters the “quick” edit mode, indicated by a dashed blinking cursor.
20090601 Inputting a Formula A formula is an expression that the Spreadsheet application calculates and evaluates when you input it, when data related to the formula is changed, etc. A formula always starts with an equal sign (=), and can contain any one of the following.
20090601 (3) Press k to display the soft keyboard. (4) Tap the 0 tab and then tap r , o , w , then press ( , or on the [Calc] menu, tap [row]. (5) Tap cell A1, and then press ) . (6) Press E . (7) Tap cell B1 and then press = . (8) On the soft keyboard, tap the 9 tab, tap - , and then tap - .
20090601 (15) On the [Edit] menu, tap [Paste]. • Learn more about cell referencing below. Inputting a Cell Reference A cell reference is a symbol that references the value of one cell for use by another cell.
20090601 k Absolute Cell References An absolute cell reference is the one that does not change, regardless of where it is located or where it is copied to or moved to. You can make both the row and column of a cell reference absolute, or you can make only the row or only the column of a cell reference absolute, as described below.
20060301 A constant is data whose value is defined when it is input. When you input something into a cell for which text is specified as the data type without an equal sign (=) at the beginning, a numeric value is treated as a constant and non-numeric values are treated as text.
20060301 13-4-9 Editing Cell Contents Using the Fill Sequence Command The Fill Sequence command lets you set up an expression with a variable, and input a range of values based on the calculated results of the expression.
20090601 • The following shows how the Fill Sequence dialog box should appear after configuring the parameters for our example. 13-4-10 Editing Cell Contents (3) After everything is the way you want, tap [OK]. • This performs all the required calculations according to your settings, and inserts the results into the spreadsheet.
20060301 Cut and Copy You can use the [Cut] and [Copy] commands on the Spreadsheet application [Edit] menu to cut and copy the contents of the cells currently selected (highlighted) with the cell cursor. You can also cut and copy text from the edit box.
20090601 • The following shows how cell data is converted to a matrix format when pasted into the edit box. 13-4-12 Editing Cell Contents Select the cell where you want to insert the text (A6 in this example), and then tap inside the edit box. Tap [Edit], and then [Paste].
20060301 13-4-13 Editing Cell Contents Specifying Text or Calculation as the Data Type for a Particular Cell A simple toolbar button operation lets you specify that the data contained in the currently selected cell or cells should be treated as either text or calculation data.
20090601 Using Drag and Drop to Copy Cell Data within a Spreadsheet You can also copy data from one cell to another within a spreadsheet using drag and drop.
20090601 13-4-15 Editing Cell Contents Selection boundary (cursor held against C2) k Dragging and Dropping Multiple Cells • When dragging multiple cells, only the cell where the stylus is located has a selection boundary around it.
20101001 13-4-16 Editing Cell Contents u To drag and drop within the edit box (1) Select the cell whose contents you want to edit. (2) Tap the edit box to enter the edit mode. (3) Tap the edit box again to display the editing cursor (a solid blinking cursor).
20090601 u To use drag and drop to obtain the data points of a graph Example: To obtain the data points of the bar graph shown below 13-4-17 Editing Cell Contents (1) Input data and draw a bar graph. • See “Other Graph Window Operations” on page 13-9-16 for more information on graphing.
20090601 Example: To assign values to variables and recalculate expressions that contain them. The following procedure shows the recalculate operation while the Spreadsheet application is being accessed from the Main application. u ClassPad Operation (1) On the application menu, tap J .
20090601 (4) On the Main application window, use the following operation to assign values to the variables. 9 bcd W0a E 9 efg W0b E (5) On the Spreadsheet window, tap cell A1 and input =a+b. Next, tap cell A2 and input =a × b. When you input the above expressions, the results will appear dynamically in cells A1 and A2.
20090601 (6) On the Main application window, assign different values to the variables. Here, assign 789 to variable b as shown below. 9 hij W0b E (7) Tap the Spreadsheet application window to make it active. On the [File] menu, tap [Recalculate]. This recalculates the expressions in the Spreadsheet window and displays their results.
20060301 13-4-21 Editing Cell Contents Importing and Exporting Variable Values You can use the procedures in this section to import the data currently assigned to a variable into a spreadsheet, and to export data in a spreadsheet to a variable.
20090601 13-4-22 Editing Cell Contents (4) After confirming that everything is the way you want, tap [OK]. • This will input the data assigned to the NData variable (in this case, 1234567890) into spreadsheet cell A1 as shown here.
20090601 13-4-23 Editing Cell Contents u To import the data assigned to a MAT variable Example: To import the matrix data assigned to the MData variable at cell A1 (1) Tap cell A1 to select it. (2) On the [File] menu, tap [Import]. • This displays the Import dialog box along with a soft keyboard.
20090601 13-4-24 Editing Cell Contents k Exporting Spreadsheet Data to a Variable You can use the procedures in this section to export the data contained in a specific cell or range of cells in the spreadsheet that is currently open on the ClassPad display.
20090601 13-4-25 Editing Cell Contents u To export spreadsheet data to a MAT (Matrix) variable (1) Select the range of cells that contains the data you want to export to a Mat variable. (2) On the [File] menu, tap [Export]. This displays the Export dialog box along with a soft keyboard.
20060301 13-4-26 Editing Cell Contents Searching for Data in a Spreadsheet The Search command helps you locate specific data in a spreadsheet quickly and easily. k Search Dialog Box The Search command can be executed either by tapping [Search] on the [Edit] menu or by tapping the e button on the toolbar.
20090601 13-4-27 Editing Cell Contents k Search Examples Example 1: To search for the letter “a”, regardless of case u ClassPad Operation (1) Display the spreadsheet you want to search. • This example is based on a spreadsheet that contains the data shown below.
20090601 13-4-28 Editing Cell Contents (5) To search for the next instance of the search string, tap [Search Again] on the [Edit] menu or tap the toolbar r button. • Each time you tap the [Search Again] command or the r toolbar button, the search will jump to the next cell that contains the specified search string.
20090601 13-4-29 Editing Cell Contents (4) Tap [OK]. • This will start the search and the cursor will jump to the first cell found that contains a match for the search string. (5) To search for the next instance of the search string, tap [Search Again] on the [Edit] menu or tap the toolbar r button.
20090601 13-4-30 Editing Cell Contents (3) Tap the [Key Column] box down arrow button. On the list that appears, select the column you want the sort to be based upon. (4) Tap either [Ascending] (a, b, c...) or [Descending] (z, y, x...). (5) After confirming that everything is the way you want, tap [OK].
20090601 13-5-1 Using the Spreadsheet Application with the eActivity Application 13-5 Using the Spreadsheet Application with the eActivity Application You can display the Spreadsheet application from within the eActivity application. This makes it possible to drag data between the Spreadsheet and eActivity windows as desired.
20090601 13-5-2 Using the Spreadsheet Application with the eActivity Application (4) Select the cell you want and drag it to the first available line in the eActivity window. • This inserts the contents of the cell in the eActivity window. • You can also select something in the edit box and drag it to the eActivity window.
20060301 13-5-3 Using the Spreadsheet Application with the eActivity Application (5) Drag the contents of the edit box to the first available line in the eActivity window. • This inserts the contents of the edit box in the eActivity window as a text string.
20090601 Example 4: Dragging data from eActivity to the Spreadsheet window 13-5-4 Using the Spreadsheet Application with the eActivity Application.
20090601 13-6-1 Statistical Calculations 13-6 Statistical Calculations The upper part of the [Calc] menu includes the same menu items as the Statistics Application [Calc] menu.
20101001 Example: To execute paired-variable calculations and display a list of statistical values (1) Enter the paired-variable data into the spreadsheet, and then select the range of cells where it is located. (2) On the menu bar, tap [Calc] and then [Two-Variable].
20090601 u T o paste a list of regression calculation results into a spreadsheet (1) Perform the procedure under “To perform a regression calculation” and display the regression calculation result window. (2) On the regression calculation result window, tap the [Output>>] button.
20090601 (4) Tap [Next >>]. • This will display a screen with the variable assignments for the range you selected in step 1 of this procedure entered automatically in the input fields as the initial defaults. (5) Enter values for the other variables and then tap [Next >>].
20090601 13-7 Cell and List Calculations Use the [Calc] menu to perform cell and list calculations. The [Calc] menu provides access to a [Cell-Calculation] submenu for cell calculations and a [List-Calculation] submenu for list calculations.
20090601 u ClassP ad Operation (1) With the stylus, tap the cell where you want the result to appear. • In this example, we would tap cell A1. (2) On the [Calc] menu, tap [List-Calculation] and then [sum] on the submenu. • This inputs the sum function ([sum(]) into the edit box.
20090601 (4) Tap the s button to the right of the edit box. • This automatically closes the parentheses, calculates the sum of the values in the selected range, and displays the result in cell A1. • You could skip this step and input the closing parentheses by pressing the ) key on the keypad, if you want.
20090601 Cell Calculation and List Calculation Functions This section provides explanations of the functions, input syntax, and examples for each of the cell calculation and list calculation functions included on the [Calc] menu. Please note that “start cell:end cell” is equivalent to entering a list.
20090601 u Cell-Calculation - count Function: Returns a count of the number of cells in the specified range. Syntax: count(start cell[:end cell]) Example: To count the number of cells in the block who.
20090601 u Cell-Calculation - cellif Function: Evaluates an equality or inequality, and returns one of three different expressions based on whether the equality/inequality is true (expression 1), false (expression 2), or inconclusive (expression 3).
20090601 u List-Calculation - min Function: Returns the lowest value contained in the range of specified cells. Syntax: min(start cell[:end cell][,start cell[:end cell]] / [,value]) Example: To determ.
20090601 u mean Function: Returns the mean of the values contained in the range of specified cells. Syntax: mean(start cell:end cell[,start cell:end cell]) Example: To determine the mean of the values.
20090601 u mode Function: Returns the mode of the values contained in the range of specified cells. Syntax: mode(start cell:end cell[,start cell:end cell]) Example: To determine the mode of the values.
20090601 u Q 3 Function: Returns the third quartile of the values contained in the range of specified cells. Syntax: Q 3 (start cell:end cell[,start cell:end cell]) Example: To determine the third qua.
20090601 u stdDev Function: Returns the sample standard deviation of the values contained in the range of specified cells. Syntax: stdDev(start cell:end cell) Example: To determine the sample standard.
20090601 u List-Calculation - sum Function: Returns the sum of the values contained in the range of specified cells. Syntax: sum(start cell:end cell[,start cell:end cell]) Example: To determine the su.
20090601 u List-Calculation - cuml Function: Returns the cumulative sums of the values contained in the range of specified cells. Syntax: cuml(start cell:end cell) Example: To determine the cumulative.
20090601 u List-Calculation - per cent Function: Returns the percentage of each value in the range of specified cells, the sum of which is 100%. Syntax: percent(start cell:end cell) Example: To determ.
20090601 • “ x ” is the default variable when you do not specify one above. • To specify “ y ” as the variable, for example, enter “=polyEval(B1:B3, y )”. u List-Calculation - sequence Function: Returns the lowest-degree polynomial that generates the sequence expressed by the values in a list or range of specified cells.
20090601 u List-Calculation - sumSeq Function: Determines the lowest-degree polynomial that generates the sum of the first n terms of your sequence. If we evaluate the resulting polynomial at 1, for example, the result will be the first value in your list.
20090601 13-8-1 F or matting Cells and Data 13-8 Formatting Cells and Data This section explains how to control the format of the spreadsheet and the data contained in the cells.
20090601 T ext Alignment With the following procedure, you can specify justified, align left, center, or align right for a specific cell, row, or column, or the entire spreadsheet. u ClassP ad Operation (1) Select the cell(s) whose alignment setting you want to specify.
20090601 Changing the Width of a Column There are three different methods you can use to control the width of a column: dragging with the stylus, using the [Column Width] command, or using the [AutoFit Selection] command.
20090601 (3) On the dialog box that appears, enter a value in the [Width] box to specify the desired width of the column in pixels. • You can also use the [Range] box to specify a different column from the one you selected in step (1) above, or a range of columns.
20090601 (3) On the [Edit] menu, tap [AutoFit Selection]. • This causes the column width to be adjusted automatically so the entire value can be displayed.
20090601 13-9-1 Graphing 13-9 Graphing The Spreadsheet application lets you draw a variety of different graphs for analyzing data. You can combine line and column graphs, and the interactive editing feature lets you change a graph by dragging its points on the display.
20090601 u [Graph] - [Line] - [Clustered] ( D ) u [Graph] - [Line] - [Stacked] ( F ) 13-9-2 Graphing.
20090601 u [Graph] - [Line] - [100% Stacked] ( G ) u [Graph] - [Column] - [Clustered] ( H ) 13-9-3 Graphing.
20090601 u [Graph] - [Column] - [Stacked] ( J ) u [Graph] - [Column] - [100% Stacked] ( K ) 13-9-4 Graphing.
20090601 u [Graph] - [Bar] - [Clustered] ( L ) u [Graph] - [Bar] - [Stacked] ( : ) 13-9-5 Graphing.
20090601 u [Graph] - [Bar] - [100% Stacked] ( " ) u [Graph] - [Pie] ( Z ) • When you select a pie chart, only the first series (row or column) of the selected data is used.
20090601 u [Graph] - [Scatter] ( X ) • In the case of a scatter graph, the first series (column or row) of selected values is used as the x -values for all plots.
20090601 • Tapping any of the bins of a histogram graph causes three values to appear at the bottom of the screen. The first two values (from the left) indicate the range of the selected bin, while the third value indicates the quantity of the selected bin.
20090601 • Tapping the Q1, Q3, Med, Min, or Max location of a box whisker graph will cause the applicable value to appear at the bottom of the screen. • On the Graph window, checking [Calc] - [Show Outliers] displays outliers instead of whiskers on graph.
20090601 u [Graph] - [Row Series] Selecting this option treats each row as a set of data. The value in each column is plotted as a vertical axis value. The following shows a graph of the same data as the above example, except this time [Row Series] is selected.
20090601 Graph Window Menus and T oolbar The following describes the special menus and toolbar that appears whenever the Spreadsheet application Graph window is on the display. k O Menu • See “Using the O Menu” on page 1-5-4. k Edit Menu • See “Edit Menu” on page 13-2-2.
20090601 k T ype Menu • The [Type] menu is identical to the [Graph] menu described on page 13-9-1. k Calc Menu T o do this: T ap this button: Or select this [Calc] menu item: Display a linear regres.
20090601 Basic Graphing Steps The following are the basic steps for graphing spreadsheet data. u ClassP ad Operation (1) Input the data you want to graph into the spreadsheet. (2) Use the [Graph] menu to specify whether you want to graph the data by row or by column.
20090601 (4) On the [Graph] menu, select the type of graph you want to draw. Or you can tap the applicable icon on the toolbar. • This draws the selected graph. See “Graph Menu” on page 13-9-1 for examples of the different types of graphs that are available.
20101001 Regression Graph Operations (Curve Fitting) After plotting a scatter graph of paired-variable spreadsheet data (Single-variable and Paired-variable Statistical Calculations, page 13-6-1), you can draw a regression graph that approximates the scatter graph and determine the regression formula.
20090601 Other Graph Window Operations This section provides more details about the types of operations you can perform while the Graph window is on the display. u T o show or hide lines and markers (1) While a line graph or a scatter graph is on the Graph window, tap the [View] menu.
20090601 u T o change a line in a clustered line graph to a column graph (1) Draw the clustered line graph. (2) With the stylus, tap any data point on the line you wish to change to a column graph. (3) On the [Calc] menu, tap [Column]. • You could also tap the down arrow button next to the third tool button from the left, and then tap ' .
20090601 u T o change a column in a clustered column graph to a line (1) Draw the clustered column graph. (2) With the stylus, tap any one of the columns you wish to change to a line graph. (3) On the [Calc] menu, tap [Line]. • You could also tap the down arrow button next to the third tool button from the left, and then tap z .
20090601 u T o find out the percentage of data f or each pie graph section (1) While the display is split between the pie graph and the Spreadsheet windows, tap the pie graph to select it. (2) On the [Edit] menu, tap [Copy]. (3) Tap the Spreadsheet window to make it active.
20090601 u T o change the appearance of the axes While a graph is on the Graph window, select [Toggle Axes] on the [View] menu or tap the q toolbar button to cycle through axes settings in the following sequence: axes on → axes and values on → axes and values off → .
20090601 • If a regression curve is displayed for the data whose graph is being changed by dragging, the regression curve also changes automatically in accordance with the drag changes. • When you edit data in the spreadsheet and press E , your graph will update automatically.
20060301 Chapter 14 Using the Diff erential Equation Graph Application This chapter explains how to use the Differential Equation Graph application, which you can use to investigate families of solutions to ordinary differential equations (ODE).
20060301 14-1-1 Diff erential Equation Graph Application Overview 14-1 Differential Equation Graph Application Overview This section explains how to use the Differential Equation Graph application screen, and describes the basic configuration of the Differential Equation Graph application windows.
20060301 14-1-2 Diff erential Equation Graph Application Overview Differential Equation Graph Application Window The Differential Equation Graph application has two windows, which are described below. Differential Equation Editor window Use this window to input expressions and initial conditions for graphing.
20060301 14-1-3 Diff erential Equation Graph Application Overview k Differential Equation Editor Window Screens The Differential Equation Editor window has three different editor screens. The editor screen you should use depends on what you want to input, as described below.
20060301 14-1-4 Diff erential Equation Graph Application Overview Differential Equation Editor Window Men us and Buttons This section provides basic information about Differential Equation Editor window menus and commands. • For information about the O menu, see “Using the O Menu” on page 1-5-4.
20060301 14-1-5 Diff erential Equation Graph Application Overview T oolbar Buttons ([DiffEq], [IC], [Graphs]) T o do this: T ap this button: Graph the selected function(s) O Display the View Window di.
20060301 14-1-6 Diff erential Equation Graph Application Overview Differential Equation Graph Window Men us and Buttons This section provides basic information about Differential Equation Graph window menus and commands.
20060301 14-1-7 Diff erential Equation Graph Application Overview Analysis Men u T o do this: Select this Analysis menu item: Pan the graph window Pan Select and move initial condition point Select Tr.
20060301 14-1-8 Diff erential Equation Graph Application Overview Differential Equation Graph Application Status Bar The status bar at the bottom of the Differential Equation Graph application shows the current angle unit setting and [Complex Format] setting (page 1-9-5).
20060301 14-2-1 Graphing a First Order Diff erential Equation 14-2 Graphing a First Or der Differential Equation This section explains how to input a first order differential equation and draw a slope field, and how to graph the solution curve(s) of a first order differential equation based on given initial conditions.
20060301 14-2-2 Graphing a First Order Diff erential Equation (5) Tap O . • This draws the slope field of y ’ = y 2 – x . (6) Tap 6 , or tap O and then tap [View Window] to display the View Window dialog box, and configure the View Window settings as shown below.
20060301 14-2-3 Graphing a First Order Diff erential Equation Inputting Initial Conditions and Graphing the Solution Curves of a First Or der Differential Equation You can use the procedure in this se.
20060301 14-2-4 Graphing a First Order Diff erential Equation Configuring Solution Curve Graph Settings You can specify whether or not a solution curve should be drawn for each initial condition input on the initial condition editor. You can also specify either a normal or thick line for solution curves.
20060301 14-2-5 Graphing a First Order Diff erential Equation (2) Tap the down arrow button on the toolbar. (3) Tap F on the toolbar to draw the solution curve with a thin line, or G to draw with a thick line. (4) To apply your setting to the graph, tap O .
20060301 14-3-1 Graphing a Second Order Diff erential Equation 14-3 Graphing a Second Or der Differential Equation This section explains how to input a second order differential equation and draw a slope field, and how to graph the solution curve(s) for a second order differential equation based on given initial conditions.
20060301 14-3-2 Graphing a Second Order Diff erential Equation (4) Tap O . • This draws the phase plane of x ’ = x , y ’ = − y . Inputting Initial Conditions and Graphing the Solution Curve of.
20060301 14-3-3 Graphing a Second Order Diff erential Equation (4) Tap O . • This graphs the solution curve and overlays it on the phase plane of { x ’ = x , y ’ = − y }. r [Edit] - [Redraw] Tip • You can also draw a solution curve using [Modify] in the Analysis menu (page 14-1-7).
20060301 14-4-1 Graphing an Nth-order Diff erential Equation 14-4 Graphing an Nth-order Diff erential Equation This section explains how to graph the solution curve(s) for an nth order (higher order) differential equation based on specified initial conditions.
20060301 14-4-2 Graphing an Nth-order Diff erential Equation (5) Use the initial condition editor to input ( xi , y 1 i , y 2 i ) = (0, −1, 0), (0, 0, 0), (0, 1, 0). a w y b w a w a w a w a w a w b w a w (6) Tap O . (Tapping r on this screen will cause the initial condition editor to fill the entire window.
20060301 14-5-1 Dra wing f ( x ) T ype Function Graphs and P arametric Function Graphs 14-5 Drawing f ( x ) T ype Function Graphs and P arametric Function Graphs You can use the Differential Equation Graph application to graph f ( x ) type function graphs and parametric function graphs, the same way as you do with the Graph & Table application.
20060301 14-5-2 Dra wing f ( x ) T ype Function Graphs and P arametric Function Graphs Drawing a P arametric Function Graph Example: To graph { xt = 3sin( t ) + 1, yt = 3cos( t ) + 1} and { xt = sin( .
20060301 14-6-1 Configuring Differential Equation Gr aph View Window P arameters 14-6 Configuring Differential Equation Graph Vie w Window P arameter s You can set the x - and y -axis window settings, as well as a number of other general graphing parameters on the View Window dialog box.
20060301 14-6-2 Configuring Differential Equation Gr aph View Window P arameters Differential Equation Graph View Windo w P arameters k Window T ab Setting Description x min minimum value along the (h.
20060301 14-6-3 Configuring Differential Equation Gr aph View Window P arameters k Solutions T ab Setting Description Solution Dir. A solution curve is graphed starting at the initial condition value t 0 and continues until it reaches a target value, which can be either t min or t max.
20060301 14-7-1 Diff erential Equation Graph Window Operations 14-7 Differential Equation Graph Windo w Operations You can perform the following operations on the Differential Equation Graph window.
20060301 14-7-2 Diff erential Equation Graph Window Operations (1) Perform the operation under “Inputting an Nth-order Differential Equation and Initial Conditions, and then Graphing the Solutions” on page 14-4-1. • Performing all of the steps will produce a graph like the one shown below to appear on the Differential Equation Graph window.
20060301 14-7-3 Diff erential Equation Graph Window Operations u T o configure new initial conditions on the Diff erential Equation Graph window Example: After drawing the slope field of a first order.
20060301 14-7-4 Diff erential Equation Graph Window Operations The procedure for modifying the initial condition is the same as steps 3 and 4 under “To modify an initial condition on the Differential Equation Graph window” on page 14-7-1. • The newly configured initial condition is added to the initial condition editor.
20060301 14-7-5 Diff erential Equation Graph Window Operations u T o star t a field trace (1) Draw a slope field or a phase plane. • See sections 14-2 and 14-3 for information about drawing a slope field or phase plane.
20060301 14-7-6 Diff erential Equation Graph Window Operations u T o perform a graph/curve trace operation (1) Draw a solution curve or general graph. • See sections 14-2 through 14-5 for information about drawing. (2) Tap = or [Analysis] - [Trace].
20060301 14-7-7 Diff erential Equation Graph Window Operations (3) From the eActivity application menu, tap [Insert], [Strip], and then [DiffEqGraph]. • This inserts a Differential Equation Graph data strip, and displays the Differential Equation Graph window in the lower half of the screen.
20060301 14-7-8 Diff erential Equation Graph Window Operations (6) Drag the stylus across “[0,1]” on the eActivity application window to select it.
20060301 14-7-9 Diff erential Equation Graph Window Operations u T o graph the solution curves by dr opping an Nth-order differential equation and matrix into the Differential Equation Graph windo w E.
20060301 (5) Drag the selected expression to the Differential Equation Graph window. • This registers y ” + y ’ = exp( x ) on the differential equation editor ([DiffEq] tab). The Differential Equation Graph window contents do not change at this time.
20101001 Chapter 15 Using the Financial Application This chapter explains how to use the Financial application. You can use the Financial application to perform a variety of financial calculations.
20060301 15-1-1 Financial Application Ov er view 15-1 Financial Application Over view This section explains how to use the Financial application initial screen, and describes the basic configuration of the Financial application windows. It also provides information on using the Financial application’s Help and Format features.
20060301 Financial Application Menus and Buttons This section describes the basic configuration of Financial application windows, and provides basic information about its menus and commands. • For information about the O menu, see “Using the O Menu” on page 1-5-4.
20060301 T o perform this type of calculation: Select this Calculations menu item: Amount that a business expense can be offset by income (depreciated) over a given year Depreciation Purchase price or.
20110401 Configuring Default Financial Application Settings Most financial calculations require that you define certain general parameters that affect the results they produce.
20101001 Financial Application P ages Selecting a calculation type from the Financial application [ Calculations ] menu will create and display a new “page”. Note the following rules that apply to Financial application pages. • You can scroll between pages using the toolbar < and > buttons.
20101001 • While the cursor is located in a calculation box, you can tap the button next to the box or tap “Solve” in the status bar to perform the calculation. k Help T ab Tapping the [Help] tab at the bottom of a financial calculation screen will display help about the box where the cursor is currently located.
20060301 15-1-7 Financial Application Ov er view k Status Bar The status bar shows the settings that apply to the calculations on the currently active page. You can change the settings by tapping them on the status bar. If the cursor is in an input/calculation box, “Solve” will appear on the left side of the status bar.
20060301 15-2 Simple Interest Simple Interest lets you calculate interest (without compounding) based on the number of days money is invested. Simple Interest Fields The following fields appear on the Simple Interest calculation page.
20060301 k Example 2 What is the simple interest ([SI]) on a principal amount of $10,000 (PV) invested or borrowed for 120 days (Days) at 5% per annum ( I %)? • This indicates that the simple interest is $164.
20060301 15-3 Compound Interest Compound Interest lets you calculate interest based on compounding parameters you specify. Compound Interest Fields The following fields appear on the Compound Interest calculation page.
20060301 15-3-2 Compound Interest k Example 3 What will be the value of an ordinary annuity at the end of 10 years if $100 is deposited each month into an account that earns 7% compounded monthly? k E.
20060301 15-3-3 Compound Interest Calculation Form ulas u PV , PMT , FV , n I % G 0 I % = 0 PV = – ( PMT × n + FV ) FV = – ( PMT × n + PV ) PV = – × PMT – × FV β γ α PMT = – × PV –.
20060301 15-4-1 Cash Flow 15-4 Cash Flo w Cash Flow lets you calculate the value of money paid out or received in varying amounts over time. Cash Flow Fields The following fields appear on the Cash Flow calculation page.
20060301 (4) On the dialog box that appears, make sure “list1” is selected for “List variables”, and then tap [OK]. • You can now use the list of values in cash flow calculation. • To close the Stat Editor window, tap anywhere in the Stat Editor window and then tap the close box ( S ) in the upper right corner of the screen.
20060301 k Example 2 Suppose you were offered the investment in Example 1 at a cost of $1,000. What is the net present value (NPV) of the investment? What is the internal rate of return (IRR)? Note • When performing the calculations for Example 2, you need to enter the cost, as a negative value (–1000), in cell 1 of list1 in the stat editor.
20060301 u IRR IRR is calculated using Newton’s Method. In this formula, NPV = 0, and the value of IRR is equivalent to i × 100. It should be noted, however, that minute fractional values tend to accumulate during the subsequent calculations performed automatically by the calculator, so NPV never actually reaches exactly zero.
20060301 15-5-1 Amor tization 15-5 Amor tization Amortization lets you calculate the interest and principal portions of a payment or payments. Amor tization Fields The following fields appear on the Amortization calculation page.
20060301 k Example 1 (Compound Interest) Use a Compound Interest page (page 15-3-1) to determine the monthly payment ([PMT]) on a 20-year (N = 20 × 12 = 240) mortgage with a loan amount (PV) of $100,000 at an annual rate ( I %) of 8.025%, compounded monthly (C/Y = 12).
20110401 15-5-3 Amor tization k Example 2 (Amortization) Use the monthly payment value you obtained in Example 1 (PMT = –837.9966279) to determine the following information for payment 10 (PM1) through 15 (PM2). As in Example 1, the mortgage has a loan amount (PV) of $100,000 at an annual rate ( I %) of 8.
20060301 15-5-4 Amor tization I%' = I% (1+ ) –1 [ C / Y ] [ P / Y ] 100 × [ C / Y ] { } × 100 i = I%' ÷ 100 Calculation Form ulas a : Interest portion of payment PM1 (INT) b : Principal.
20060301 15-6-1 Interest Conv ersion 15-6 Interest Con version Interest Conversion lets you calculate the effective or nominal interest rate for interest that is compounded multiple times during a year. Interest Con version Fields The following fields appear on the Interest Conversion calculation page.
20060301 Tip • You can change any value and then tap a button to recalculate. Calculation Form ulas EFF = n APR/ 100 1+ –1 × 100 n A PR = 100 EFF 1+ –1 × n × 100 1 n 15-6-2 Interest Conv ersi.
20060301 15-7-1 Cost /Sell/Margin 15-7 Cost /Sell/Mar gin Cost /Sell/Margin lets you calculate the cost, selling price, or margin of profit on an item, given the other two values. Cost /Sell/Margin Fields The following fields appear on the Cost /Sell/Margin calculation page.
20060301 15-8-1 Da y Count 15-8 Da y Count Day Count lets you calculate the number of days between two dates, or the date that is a specified number of days from another date. Da y Count Fields The following fields appear on the Day Count calculation page.
20060301 k Example 3 What date (d1) comes 44 days ([Days]) before March 3, 2005 (d2)? 15-8-2 Da y Count k Example 2 What date (d2) comes 150 days ([Days]) after June 11, 2005 (d1)?.
20060301 15-9-1 Depreciation 15-9 Depreciation Depreciation lets you calculate the amount that a business expense can be offset by income (depreciated) over a given year. You can use a Depreciation page to calculate depreciation using one of four methods: straight-line, fixed-percentage, sum-of-the-years’-digits, or declining-balance.
20060301 15-9-2 Depreciation Tip • At the end of the useful life the value of the computer will be 0, so we enter 0 in the FV field. k Example 1 Use the sum-of-the-years’-digits method ([SYD]) to calculate the first year ( j = 1) of depreciation on an $12,000 (PV) computer, with a useful life (N) of five years.
20060301 k Example 2 Now calculate the depreciation amount ([SYD]) for the second year ( j = 2). Note • You can also tap [SL] to calculate depreciation using straight-line method, [FP] using fixed- percentage method, or [DB] using declining-balance method.
20060301 k Fixed-P ercenta g e Method k Sum-of-the-Y ears’-Digits Method k Dec lining-Balance Method 100 I% FP j = ( RDV j –1 + FV ) × 100 YR 1 I% FP 1 = PV × 12 × FP n +1 = RDV n ( YR 1 G 12) .
20060301 15-10-1 Bond Calculation 15-10 Bond Calculation Bond Calculation lets you calculate the purchase price or the annual yield of a bond. Bond Calculation Fields The following fields appear on the Bond Calculation page.
20110401 15-10-2 Bond Calculation k Example 1 You want to purchase a semiannual (Compounding Frequency = Semi-annual) corporate bond that matures on 12/15/2006 (d2) to settle on 6/1/2004 (d1). The bond is based on the 30/360 day-count method (Days in Year = 360 days) with a coupon rate (CPN) of 3%.
20060301 15-10-3 Bond Calculation k Example 2 For the same type of bond described in Example 1, calculate the price on the bond (PRC) based on a specific number of coupon payments (Term). • Before performing the calculation, you should use the [Format] tab to change the [Bond Interval] setting to “Term”, or tap “Date” in the status bar.
20060301 PRC : price per $100 of face value CPN : coupon rate (%) YLD : annual yield (%) A : accrued days M : number of coupon payments per year (1 = Annual, 2 = Semi-annual) N : number of coupon payments until maturity ( n is used when “Term” is specified for [Bond Interval] in the [Format] tab.
20060301 Bond Interval Setting: Term u Annual Yield (YLD) YLD is calculated using Newton’s Method. Note • The Financial application performs annual yield (YLD) calculations using Newton’s Method, which produces approximate values whose precision can be affected by various calculation conditions.
20060301 15-11-1 Break-Ev en P oint 15-11 Break-Even P oint Break-Even Point lets you calculate the amount you must sell to break even or to obtain a specified profit, as well as the profit or loss on particular sales. Break-Even P oint Fields The following fields appear on the Break-Even Point calculation page.
20060301 15-11-2 Break-Ev en P oint k Example 1 What is the break-even point sales amount ([SBE]) and sales quantity ([QBE]) required for a profit ([PRF]) of $400,000? Note • You need to calculate the break-even point sales quantity ([QBE]) before you will be able to calculate the break-even sales amount ([SBE]).
20060301 k Example 2 What is the break-even point sales amount ([SBE]) and sales quantity ([QBE]) to attain a profit ratio ([r%]) of 40%? • For this example, use the [Format] tab to change the [Profit Amount/Ratio] setting to “Ratio ( r %)” or tap “PRF” in the status bar to change it to “ r %”.
20060301 15-12-1 Margin of Saf ety 15-12 Mar gin of Safety Margin of Safety lets you calculate how much sales can be reduced before losses are incurred.
20060301 15-13-1 Operating Le ver age 15-13 Operating Le verage Operating leverage lets you calculate the degree of change in net earnings arising from a change in sales amount. Operating Levera g e Fields The following fields appear on the Operating Leverage calculation page.
20060301 15-14-1 Financial Le verage 15-14 Financial Le verage Financial Leverage lets you calculate the degree of change in net earnings arising from a change in interest paid. Financial Levera g e Fields The following fields appear on the Financial Leverage calculation page.
20060301 15-15-1 Combined Le verage 15-15 Combined Le verage Combined Leverage lets you calculate the combined effects of operation and financial leverages. Combined Levera g e Fields The following fields appear on the Combined Leverage calculation page.
20060301 15-16-1 Quantity Conv ersion 15-16 Quantity Con version Quantity Conversion lets you calculate the number of items sold, selling price, or sales amount given the other two values. It also lets you calculate the number of items manufactured, unit variable cost, or total variable cost given the other two values.
20060301 15-16-2 Quantity Conv ersion • You can also calculate the variable cost per unit ([VCU]) or number of units manufactured ([QTY]) by inputting the other two values and tapping the button for the result you want.
20101001 15-17-1 Performing Financial Calculations Using Commands 15-17 Performing Financial Calculations Using Commands You can perform the following types of financial calculations using program commands in Program, eActivity or Main application.
20110901 Chapter 16 Configuring System Settings The ClassPad unit’s System application lets you configure global system settings and access system information. You can also import and export data (variable and eActivity) between main memory and the eActivity area, and the mass storage area (USB Flash Drive).
20110901 16-1-1 System Setting Overview 16-1 System Setting Overview This section describes the configuration of the System application window, and provides information about its menus and commands. Starting Up the System Application Use the following procedure to start up the System application.
20110901 System Application Menus and Buttons To perform an operation in the System application, select it on the [System] menu or tap the applicable toolbar button.
20110901 16-2 Managing Memory Usage You can use [Memory Usage] to determine how much data is stored in the main memory, the mass storage area, and the eActivity area, and to delete data.
20110901 This item: Shows how much memory is used by this type of data: Graph Summary Summary table data View Window 2-dimensional View Window parameter values 3D View Window 3-dimensional View Window.
20110901 Deleting Memory Usage Data You can use the following procedure to delete memory usage data. u ClassPad Operation (1) Tap the memory usage tab (Main Memory, Add-In App., eActivity, or Language) that contains the data you want to delete. (2) Select the check box next to the item whose data you want to delete.
20110901 16-3 Using the Reset Dialog Box You can perform the following operations from the Reset dialog box. • Delete all variable and program data in main memory • Delete all eActivity data • Delete data other than add-ins in storage memory u ClassPad Operation (1) On the application menu, tap Y .
20110401 16-4 Initializing Y our ClassP ad The initialization procedure provides you with a choice of two options. You can either clear the Flash ROM entire and return its data to the factory default state, or you can specify deletion of all user formulas and data, without deleting any currently installed add-in applications.
20110401 16-5 Specifying the Display Langua g e You can use the following procedure to specify German, English, Spanish, French, or Portuguese as the display language. u ClassP ad Operation (1) On the application menu, tap Y . • This starts up the System application.
20110401 16-6-1 Specifying the F ont Set 16-6 Specifying the Font Set You can select either “Regular” or “Bolder” as the display font type. Regular Bolder Text Input Menu u ClassP ad Operation (1) On the application menu, tap Y . • This starts up the System application.
20110401 16-7 Specifying the Alphabetic Ke yboar d Arrangement The Keyboard dialog box lets you select from among three different key arrangements for the alphabetic (abc) soft keyboard: QWERTY, AZERTY, or QWERTZ. The initial default setting is QWERTY.
20110901 16-8 Viewing V ersion Information Use the following procedure when you want to view version information about your ClassPad’s operating system. u T o view software version information (1) On the application menu, tap Y . • This starts up the System application.
20110401 u ClassP ad Operation (1) On the application menu, tap Y . • This starts up the System application. (2) Tap [System] and then [ClassPad Name] to display the ClassPad Name dialog box.
20110401 u ClassP ad Operation (1) On the application menu, tap Y . • This starts up the System application. (2) Tap [System] and then [Imaginary Unit] to display the Imaginary Unit dialog box. (3) On the Imaginary Unit dialog box, select the type of imaginary unit you want to use.
20110401 u ClassP ad Operation (1) On the application menu, tap Y . • This starts up the System application. (2) Tap [System] and then [Shift Keys] to display the Shift Key Assign dialog box. (3) On the Shift Key Assign dialog box, select the “Set ( – ) as shift key” check box.
20110401 16-11-2 Assigning Shift Mode K ey Oper ations to Hard K eys • To assign the Cut, Copy, Paste, or Undo/Redo operation, tap the applicable button on the dialog box. • To clear the current assignment from the hard key, tap [Clear Assignment].
20110401 Appendix 1 Character Code T able 2 System V ariable T able 3 Command and Function Index 4 Graph T ypes and Executable Functions 5 Err or Message T able α.
20110401 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 1 Character Code T ab le Characters from character code 257 onwards are 2-byte characters.
20110401 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382.
20110401 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626.
20110401 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 869 870 871.
20110401 2 System V ariable T ab le Name Description Input Delete Data Type Default a 0 Sequence Variable – EXPR (Real Number) 0 a 1 Sequence Variable – EXPR (Real Number) 0 a 2 Sequence V.
20110401 Name Description Input Delete Data Type Default b n E Sequence Expression STR b n E 0 Recursion Internal Variable – – EXPR (Real Number) b n Start Sequence Variable – EXPR (R.
20110401 Name Description Input Delete Data Type Default GconHStart Graph Transformation Vertical Start Point – – EXPR (Real Number) 1 GconHStep Graph Transformation Vertical Step Value – – EX.
20110401 Name Description Input Delete Data Type Default ModeFStat Frequency of Mode Values (Statistics Calculation) – – EXPR (Real Number) ModeNStat Number of Mode Values (Statistics Calculation).
20110401 α -2-5 System V ar iable T able Name Description Input Delete Data Type Default SqResult Sequence Result Variable – – MAT SqStart Sequence Creation Variable – EXPR (Real Number) 1 .
20110401 α -2-6 System V ar iable T able Name Description Input Delete Data Type Default tUpper Result of TCD Calculation – – EXPR (Real Number) Tvalue t Value – – EXPR (Real Number) t θ max.
20110401 α -2-7 System V ar iable T able Name Description Input Delete Data Type Default ymax View Window Display Range y -axis Maximum Value – EXPR (Real Number) 3.
20110501 3 Command and Function Index α -3-1 Command and Function Inde x Command/Function Form Pa g e Command/Function Form P age abExpR Cmd 12-6-32 abExpReg Cmd 12-6-27 abs Func 2-4-5 absExpand Func.
20110501 α -3-2 Command and Function Inde x Command/Function Form Pa g e Command/Function Form P age DateMode360 Func 15-17-1 DateMode365 Func 15-17-1 dayCount Func 2-8-63 DefaultListEditor Cmd 12-6-.
20110501 α -3-3 Command and Function Inde x Command/Function Form Pa g e Command/Function Form P age GraphType Cmd 12-6-17 GTSelOff Cmd 12-6-17 GTSelOn Cmd 12-6-18 heaviside Func 2-4-17 Histogram Cmd.
20110501 α -3-4 Command and Function Inde x Command/Function Form Pa g e Command/Function Form P age MultiSortD Cmd 12-6-30 nCr Func 2-4-11 NDist Cmd 12-6-32 NewFolder Cmd 12-6-40 norm Func 2-8-34, 2.
20110501 α -3-5 Command and Function Inde x Command/Function Form Pa g e Command/Function Form P age Receive38k Cmd 12-6-46 ref Func 2-8-34 Rename Cmd 12-6-40 replace Func 2-8-47 Return Cmd 12-6-13 r.
20110501 α -3-6 Command and Function Inde x Command/Function Form Pa g e StoPict Cmd 12-6-22 StoVWin Cmd 12-6-22 StrCmp Cmd 12-6-42 StrInv Cmd 12-6-42 StrJoin Cmd 12-6-43 StrLeft Cmd 12-6-43 StrLen C.
20110501 # Cmd 12-6-8 ’ Cmd 2-4-13, 12-6-2 " Cmd 12-6-41 π Cmd ∞ Cmd 2-4-15 ∠ Func 2-4-13 Func 2-4-5 Σ Func 2-8-15 Π Func 2-8-15 ∫ Func 2-8-14 A list Func 2-8-29 : (Multi-statement Com.
20110401 α -4-1 Graph T ypes and Executab le Functions 4 Graph T ypes and Executab le Functions : Executable − : Not executable D : Executable with some conditions Zoom Graph T ype Function Ana.
20110401 α -4-2 Graph T ypes and Executab le Functions Zoom Graph T ype Function Analysis Sketch G-Solve Modify Box In Out Auto Original Square Round Integer Previous Quick T ypes T race Cls Plot Lin.
20110401 α -4-3 Graph T ypes and Executab le Functions • Histogram • Broken Zoom Graph T ype Function Analysis Sketch G-Solve Modify Box In Out Auto Original Square Round Integer Previous Quick T.
20110401 α -4-4 Graph T ypes and Executab le Functions Statistical - Box • MedBox • ModBox Zoom Graph T ype Function Analysis Sketch G-Solve Modify Box In Out Auto Original Square Round Integer P.
20110401 α -5-1 Error Message T able 5 Err or Message T able k Err or Message T able Error Messa g e Description A single presentation can contain up to 60 pages.
20110401 α -5-2 Error Message T able Error Messa g e Description Folder The folder name you specified for a command argument does not exist. Or you have input the name of a folder that cannot be specified (“library” folder, etc.
20110401 α -5-3 Error Message T able Error Messa g e Description Invalid Outside Function or Program You are trying to execute a command that must be used inside of a program as a local command, outside of a program. Invalid Path You are trying to specify an invalid path.
20110401 α -5-4 Error Message T able Error Messa g e Description Non-Real in Calc The ClassPad is in the Real mode but the value you are inputting or the result produced by a calculation is a complex number. Not a Local Variable The variable you are trying to assign data to is not a local variable.
20110401 k W arning Message T able α -5-5 Error Message T able k Low Memory Err or Processing An error occurs on the ClassPad if it is unable to reserve enough work area memory to perform a particular operation. When a low memory error occurs, any application in use at that point is shut down and an error message like the one shown below appears.
Manufacturer: CASIO COMPUTER CO., L TD. 6-2, Hon-machi 1-chome, Shibuya-ku, T okyo 151-8543, Japan Responsible within the European Union: CASIO EUROPE GmbH Casio-Platz 1, 22848 Norderstedt, Germany This mark applies in EU countries only.
CASIO COMPUTER CO ., L TD . 6-2, Hon-machi 1-chome Shibuya-ku, T okyo 151-8543, Japan One or more of the following patents may be used in the pr oduct.
Un point important après l'achat de l'appareil (ou même avant l'achat) est de lire le manuel d'utilisation. Nous devons le faire pour quelques raisons simples:
Si vous n'avez pas encore acheté Casio CLASSPAD330PLUS c'est un bon moment pour vous familiariser avec les données de base sur le produit. Consulter d'abord les pages initiales du manuel d'utilisation, que vous trouverez ci-dessus. Vous devriez y trouver les données techniques les plus importants du Casio CLASSPAD330PLUS - de cette manière, vous pouvez vérifier si l'équipement répond à vos besoins. Explorant les pages suivantes du manuel d'utilisation Casio CLASSPAD330PLUS, vous apprendrez toutes les caractéristiques du produit et des informations sur son fonctionnement. Les informations sur le Casio CLASSPAD330PLUS va certainement vous aider à prendre une décision concernant l'achat.
Dans une situation où vous avez déjà le Casio CLASSPAD330PLUS, mais vous avez pas encore lu le manuel d'utilisation, vous devez le faire pour les raisons décrites ci-dessus,. Vous saurez alors si vous avez correctement utilisé les fonctions disponibles, et si vous avez commis des erreurs qui peuvent réduire la durée de vie du Casio CLASSPAD330PLUS.
Cependant, l'un des rôles les plus importants pour l'utilisateur joués par les manuels d'utilisateur est d'aider à résoudre les problèmes concernant le Casio CLASSPAD330PLUS. Presque toujours, vous y trouverez Troubleshooting, soit les pannes et les défaillances les plus fréquentes de l'apparei Casio CLASSPAD330PLUS ainsi que les instructions sur la façon de les résoudre. Même si vous ne parvenez pas à résoudre le problème, le manuel d‘utilisation va vous montrer le chemin d'une nouvelle procédure – le contact avec le centre de service à la clientèle ou le service le plus proche.