User Manual
Page 182
... entered function. Enter and edit lists, data, and matrices. Application: Table Data/Matrix Editor Program Editor Text Editor Numeric Solver Home Lets you press the first letter of variable values that letter, the first one alphabetically is highlighted). Enter an expression or equation, define values for the unknown variable. You can perform statistical calculations and graph statistical plots. Enter expressions and instructions, and perform calculations. Enter and edit a text session. The application either opens directly or displays...
... entered function. Enter and edit lists, data, and matrices. Application: Table Data/Matrix Editor Program Editor Text Editor Numeric Solver Home Lets you press the first letter of variable values that letter, the first one alphabetically is highlighted). Enter an expression or equation, define values for the unknown variable. You can perform statistical calculations and graph statistical plots. Enter expressions and instructions, and perform calculations. Enter and edit a text session. The application either opens directly or displays...
User Manual
Page 185
... Editor Graph Table Setup Table Screen Press: " " 8 # 8 $ 8 % 8& 8' Applications listed above ƒ, „ etc., are displayed according to the current mode settings. Operating the Calculator 185 Mode settings are displayed and interpreted. Checking Mode Settings Press 3 to the notation used applications from the keyboard. All numbers, including elements of matrices and lists, are printed in second functions. On the TI-89 Titanium for example, 8 # is turned off. This guidebook uses the notation 8 #, similar to display the MODE dialog box, which lists the modes and...
... Editor Graph Table Setup Table Screen Press: " " 8 # 8 $ 8 % 8& 8' Applications listed above ƒ, „ etc., are displayed according to the current mode settings. Operating the Calculator 185 Mode settings are displayed and interpreted. Checking Mode Settings Press 3 to the notation used applications from the keyboard. All numbers, including elements of matrices and lists, are printed in second functions. On the TI-89 Titanium for example, 8 # is turned off. This guidebook uses the notation 8 #, similar to display the MODE dialog box, which lists the modes and...
User Manual
Page 187
... number of Variables" in a floating-point result cannot exceed 12. Maximum number of digits (FLOAT) or fixed number of graphs to save the changes and exit the dialog box. Mode Graph Current Folder Display Digits Angle Description Type of decimal places (FIX) displayed in which angle values are interpreted and displayed: RADIAN, DEGREE or GRADIAN. Unless you finish all your changes, press ¸ to plot: FUNCTION, PARAMETRIC, POLAR, SEQUENCE, 3D, or DE. Units in a floating-point result. Change other mode settings...
... number of Variables" in a floating-point result cannot exceed 12. Maximum number of digits (FLOAT) or fixed number of graphs to save the changes and exit the dialog box. Mode Graph Current Folder Display Digits Angle Description Type of decimal places (FIX) displayed in which angle values are interpreted and displayed: RADIAN, DEGREE or GRADIAN. Unless you finish all your changes, press ¸ to plot: FUNCTION, PARAMETRIC, POLAR, SEQUENCE, 3D, or DE. Units in a floating-point result. Change other mode settings...
User Manual
Page 188
... sets of a split screen. Application in the Split 2 part of a split screen. Lets you use a complex entry), RECTANGULAR, or POLAR. Operating the Calculator 188 Turns the pretty print display feature OFF or ON. Refer to the Split Screens module. Calculates expressions and displays results in numeric form or in decimal (DEC), hexadecimal (HEX), or binary (BIN) form. Mode Exponential Format Complex Format Vector Format Pretty Print Split Screen Split 1 App Split 2 App Number of Graphs Graph 2 Exact/Approx Base Description Notation used to display 2- Format used to display complex...
... sets of a split screen. Application in the Split 2 part of a split screen. Lets you use a complex entry), RECTANGULAR, or POLAR. Operating the Calculator 188 Turns the pretty print display feature OFF or ON. Refer to the Split Screens module. Calculates expressions and displays results in numeric form or in decimal (DEC), hexadecimal (HEX), or binary (BIN) form. Mode Exponential Format Complex Format Vector Format Pretty Print Split Screen Split 1 App Split 2 App Number of Graphs Graph 2 Exact/Approx Base Description Notation used to display 2- Format used to display complex...
User Manual
Page 202
... Sets of the next key you press. Until you turn this off , will use the diamond feature of Variables" in effect, as described below. 2 - Operating the Calculator 202 will type the uppercase letter for the next key you press. 8 - will use the second function of the current folder. will type the uppercase letter for each key you press. ¤ - Í Exact/Approx Mode Î Graph Number Ï Graph Mode...
... Sets of the next key you press. Until you turn this off , will use the diamond feature of Variables" in effect, as described below. 2 - Operating the Calculator 202 will type the uppercase letter for the next key you press. 8 - will use the second function of the current folder. will type the uppercase letter for each key you press. ¤ - Í Exact/Approx Mode Î Graph Number Ï Graph Mode...
User Manual
Page 206
... calculator Home screen. To display a toolbar menu, press ƒ, „, etc. Ë Pretty Print Display Shows exponents, roots, fractions, etc., in traditional form. Ì Last Entry Your last entry. Í Entry Line Where you display menus for selecting operations applicable to the calculator Home screen. Calculator Home Screen 206 Parts of the Calculator Home Screen The following example contains previously entered data and describes the main parts of the calculator, including several important mode settings. Entry/answer...
... calculator Home screen. To display a toolbar menu, press ƒ, „, etc. Ë Pretty Print Display Shows exponents, roots, fractions, etc., in traditional form. Ì Last Entry Your last entry. Í Entry Line Where you display menus for selecting operations applicable to the calculator Home screen. Calculator Home Screen 206 Parts of the Calculator Home Screen The following example contains previously entered data and describes the main parts of the calculator, including several important mode settings. Entry/answer...
User Manual
Page 240
... to standard forms as much as possible without approximating them. Symbolic Manipulation 240 Using Exact, Approximate, and Auto Modes The Exact/Approx mode settings, which the TI-89 Titanium calculates a result. This section describes these mode settings as 2Lx = x, have solutions that cannot all be finitely represented in terms of the functions and operators on the handheld. The EXACT setting: • Transforms irrational numbers to 614 digits...
... to standard forms as much as possible without approximating them. Symbolic Manipulation 240 Using Exact, Approximate, and Auto Modes The Exact/Approx mode settings, which the TI-89 Titanium calculates a result. This section describes these mode settings as 2Lx = x, have solutions that cannot all be finitely represented in terms of the functions and operators on the handheld. The EXACT setting: • Transforms irrational numbers to 614 digits...
User Manual
Page 532
... data variables, the Data/Matrix Editor has an Auto-calculate feature. To turn Auto-calculate off and on from the Home screen or a program. Use 2 ° to the Technical Reference module. However, you make in column 1 is defined as c2=2ùc1, any change that affects a header definition (or any column referenced in column 2. For information, refer to see existing list variables. To Fill a Matrix...
... data variables, the Data/Matrix Editor has an Auto-calculate feature. To turn Auto-calculate off and on from the Home screen or a program. Use 2 ° to the Technical Reference module. However, you make in column 1 is defined as c2=2ùc1, any change that affects a header definition (or any column referenced in column 2. For information, refer to see existing list variables. To Fill a Matrix...
User Manual
Page 641
... computer, use a USB cable or TI-GRAPH LINK™ computer-to-calculator cable and TI Connect software to send the program to your computer. Note about TI-GRAPH LINK If you write with the TI-89 Titanium. After downloading a program from this site provide additional functions or features that are available on your TI-89 Titanium. For Flash App installation instructions, see education.ti.com/guides. Where to Get Assembly-Language Programs Assembly-language programs...
... computer, use a USB cable or TI-GRAPH LINK™ computer-to-calculator cable and TI Connect software to send the program to your computer. Note about TI-GRAPH LINK If you write with the TI-89 Titanium. After downloading a program from this site provide additional functions or features that are available on your TI-89 Titanium. For Flash App installation instructions, see education.ti.com/guides. Where to Get Assembly-Language Programs Assembly-language programs...
User Manual
Page 809
... initialCondition2, use ¥ ¸ or set the mode to Exact/Approx=APPROXIMATE, computations are done using floating-point arithmetic. • If tol is ignored. • If you use the form: dependentVar' (initialIndependentValue) = initial1stDerivativeValue deSolve(2ndOrderOde and boundaryCondition1 and boundaryCondition2, independentVar, dependentVar) ⇒ a particular solution Returns a particular solution that satisfies 2ndOrderOde and has a specified value of squareMatrix. Optionally, any symbolic variables that have...
... initialCondition2, use ¥ ¸ or set the mode to Exact/Approx=APPROXIMATE, computations are done using floating-point arithmetic. • If tol is ignored. • If you use the form: dependentVar' (initialIndependentValue) = initial1stDerivativeValue deSolve(2ndOrderOde and boundaryCondition1 and boundaryCondition2, independentVar, dependentVar) ⇒ a particular solution Returns a particular solution that satisfies 2ndOrderOde and has a specified value of squareMatrix. Optionally, any symbolic variables that have...
User Manual
Page 826
...; ListStringPairs If the argument is a specific mode name, returns a string containing the current setting for that is "ALL", returns a list of string pairs containing the settings of all ") ¸ {"Graph" "FUNCTION" "Display Digits" "FLOAT 6" "Angle" "RADIAN" "Exponential Format" "NORMAL" "Complex Format" "REAL" "Vector Format" "RECTANGULAR" "Pretty Print" "ON" "Split Screen" "FULL" "Split 1 App" "Home" "Split 2 App" "Graph" "Number of Graphs" "1" "Graph 2" "FUNCTION" "Split Screen Ratio" "1,1" "Exact/Approx" "AUTO" "Base" "DEC"} Note: Your screen may display different mode settings.
...; ListStringPairs If the argument is a specific mode name, returns a string containing the current setting for that is "ALL", returns a list of string pairs containing the settings of all ") ¸ {"Graph" "FUNCTION" "Display Digits" "FLOAT 6" "Angle" "RADIAN" "Exponential Format" "NORMAL" "Complex Format" "REAL" "Vector Format" "RECTANGULAR" "Pretty Print" "ON" "Split Screen" "FULL" "Split 1 App" "Home" "Split 2 App" "Graph" "Number of Graphs" "1" "Graph 2" "FUNCTION" "Split Screen Ratio" "1,1" "Exact/Approx" "AUTO" "Base" "DEC"} Note: Your screen may display different mode settings.
User Manual
Page 859
...; nøo| m2 + o2 QuadReg MATH/Statistics/Regressions menu QuadReg list1, list2[, [list3] [, list4, list5]] Calculates the quadratic polynomial regression and updates the system statistics variables. list1 represents xlist. list5 represents category include list. L1 ¸ {4,3,1,1,2,2,3,3}! L2 ¸ QuadReg L1,L2 ¸ ShowStat ¸ {1 2 3 ...} {4 3 1 ...} Done Appendix A: Functions and Instructions 859 The resulting Q and R matrices are stored to be calculated in floating-point form. [1,2,3;4,5,6;7,8,9.]!m1 ¸ 14...
...; nøo| m2 + o2 QuadReg MATH/Statistics/Regressions menu QuadReg list1, list2[, [list3] [, list4, list5]] Calculates the quadratic polynomial regression and updates the system statistics variables. list1 represents xlist. list5 represents category include list. L1 ¸ {4,3,1,1,2,2,3,3}! L2 ¸ QuadReg L1,L2 ¸ ShowStat ¸ {1 2 3 ...} {4 3 1 ...} Done Appendix A: Functions and Instructions 859 The resulting Q and R matrices are stored to be calculated in floating-point form. [1,2,3;4,5,6;7,8,9.]!m1 ¸ 14...
User Manual
Page 863
... Degree angle mode. This tolerance is used , the default tolerance is calculated as zero if its absolute value is treated as : 5Eë 14 ù max(dim(matrix1)) ù rowNorm(matrix1) Note: See also rref(). However, an reiq entry causes an error in rectangular form [x, y, z]. real(matrix1) ⇒ matrix Returns the real parts of all elements. To type , press 2 '. Otherwise, tol is a display-format instruction...
... Degree angle mode. This tolerance is used , the default tolerance is calculated as zero if its absolute value is treated as : 5Eë 14 ù max(dim(matrix1)) ù rowNorm(matrix1) Note: See also rref(). However, an reiq entry causes an error in rectangular form [x, y, z]. real(matrix1) ⇒ matrix Returns the real parts of all elements. To type , press 2 '. Otherwise, tol is a display-format instruction...
User Manual
Page 867
... tolerance is less than full-screen pictures, only the area affected by the new picture is used only if the matrix has floating-point entries and does not contain any matrix element is treated as zero if its absolute value is calculated as a degree, gradian or radian angle, according to clear the screen, use ¥ ¸ or set the mode to Exact/Approx=APPROXIMATE, computations are (0, 0).
... tolerance is less than full-screen pictures, only the area affected by the new picture is used only if the matrix has floating-point entries and does not contain any matrix element is treated as zero if its absolute value is calculated as a degree, gradian or radian angle, according to clear the screen, use ¥ ¸ or set the mode to Exact/Approx=APPROXIMATE, computations are (0, 0).
User Manual
Page 871
... for multiple-mode changes. sin(45) ¸ setMode("Angle","Radian") ¸ sin(pà4) ¸ setMode("Angle","Gradian") ¸ sin(50) ¸ setMode("Display Digits", "Fix 2") ¸ p ¥¸ Note: To set them all at once. Mode Name "Graph" "Display Digits" "Angle" "Exponential Format" "Complex Format" "Vector Format" "Pretty Print" Settings "Function", "Parametric", "Polar", "Sequence", "3D", "Diff Equations" "Fix 0", "Fix 1", ..., "Fix 12", "Float", "Float 1", ..., "Float 12" "Radian", "Degree", "Gradian" "Normal", "Scientific", "Engineering" "Real", "Rectangular", "Polar...
... for multiple-mode changes. sin(45) ¸ setMode("Angle","Radian") ¸ sin(pà4) ¸ setMode("Angle","Gradian") ¸ sin(50) ¸ setMode("Display Digits", "Fix 2") ¸ p ¥¸ Note: To set them all at once. Mode Name "Graph" "Display Digits" "Angle" "Exponential Format" "Complex Format" "Vector Format" "Pretty Print" Settings "Function", "Parametric", "Polar", "Sequence", "3D", "Diff Equations" "Fix 0", "Fix 1", ..., "Fix 12", "Float", "Float 1", ..., "Float 12" "Radian", "Degree", "Gradian" "Normal", "Scientific", "Engineering" "Real", "Rectangular", "Polar...
User Manual
Page 899
... Displays the Graph screen, and updates the viewing window using the settings stored with the settings in the coordinate system, and updates the viewing window. In 3D Graph mode, ZoomSqr lengthens the shortest two axes to be the same as the longest axis. " ZoomSqr ¸ Appendix A: Functions and Instructions 899 In 3D Graph mode, the magnitude is dependent on xFact, yFact, and zFact. ¸ ZoomPrev CATALOG ZoomPrev Displays the Graph screen...
... Displays the Graph screen, and updates the viewing window using the settings stored with the settings in the coordinate system, and updates the viewing window. In 3D Graph mode, ZoomSqr lengthens the shortest two axes to be the same as the longest axis. " ZoomSqr ¸ Appendix A: Functions and Instructions 899 In 3D Graph mode, the magnitude is dependent on xFact, yFact, and zFact. ¸ ZoomPrev CATALOG ZoomPrev Displays the Graph screen...
User Manual
Page 924
... fractional and symbolic expressions are calculated and displayed. Note: For a complete description of these settings, refer to "Formats of Displayed Results" in floating-point form. By retaining rational and symbolic forms in the EXACT setting, the TI-89 Titanium / Voyage™ 200 increases precision by entering numbers in decimal, binary, or hexadecimal form. 1:DEC 2:HEX 3:BIN Decimal numbers use 0 - 9 in most numeric rounding errors. 1:AUTO Uses EXACT setting in the base 10 format Hexadecimal numbers use 0 and 1 in the base 16 format...
... fractional and symbolic expressions are calculated and displayed. Note: For a complete description of these settings, refer to "Formats of Displayed Results" in floating-point form. By retaining rational and symbolic forms in the EXACT setting, the TI-89 Titanium / Voyage™ 200 increases precision by entering numbers in decimal, binary, or hexadecimal form. 1:DEC 2:HEX 3:BIN Decimal numbers use 0 - 9 in most numeric rounding errors. 1:AUTO Uses EXACT setting in the base 10 format Hexadecimal numbers use 0 and 1 in the base 16 format...
User Manual
Page 983
... predator-prey model 371, 435 prime factors 73 programming 128, 130, 637 Pythagorean theorem 741 quadratic formula 743 rational factors 773 real factors 773 reducing expressions 76 sampling 775 second-order differential equation . . 427 444 sequence graphing 98 solving inequalities 78 solving linear equations . . . . 77, 260 split screen 114, 764 standard annuity 769 statistics 119 symbolic manipulation 82 tables 112 text operations 131 third-order differential equation . 431 time value of money...
... predator-prey model 371, 435 prime factors 73 programming 128, 130, 637 Pythagorean theorem 741 quadratic formula 743 rational factors 773 real factors 773 reducing expressions 76 sampling 775 second-order differential equation . . 427 444 sequence graphing 98 solving inequalities 78 solving linear equations . . . . 77, 260 split screen 114, 764 standard annuity 769 statistics 119 symbolic manipulation 82 tables 112 text operations 131 third-order differential equation . 431 time value of money...
User Manual
Page 993
... (degree 38 Display Digits 169, 187, 922 display digits 18 EXACT 38 Exact/Approx . . 166, 188, 203, 240, 241 242, 925 exact/approx 18 Exponential Format . . 170, 188, 923 exponential format 18 fullscreen 17, 31, 37, 61, 64 FUNC (function 38 get/return, getMode( ) . . . . 617, 827 GRAD (gradian 38 Graph 187, 203, 304, 342, 349, 356, 377 412 graph 18 Graph 2 188, 925 graph number 38 graph type...
... (degree 38 Display Digits 169, 187, 922 display digits 18 EXACT 38 Exact/Approx . . 166, 188, 203, 240, 241 242, 925 exact/approx 18 Exponential Format . . 170, 188, 923 exponential format 18 fullscreen 17, 31, 37, 61, 64 FUNC (function 38 get/return, getMode( ) . . . . 617, 827 GRAD (gradian 38 Graph 187, 203, 304, 342, 349, 356, 377 412 graph 18 Graph 2 188, 925 graph number 38 graph type...
User Manual
Page 1002
See also regressions status battery low 71 on , PlotsOn . . . . 311, 628, 855 random norm, randNorm( ) . . . . 863 random number seed, RandSeed . . 747 863 random number, rand 862 Scatter plots 555 show results, ShowStat . . . . 548, 876 standard deviation, stdDev( ) . . . 883 two-variable results, TwoVar . . . 546, 893 variables 548 variance, variance 894 xyline plots 555 statistics. status and open Apps 6 viewing 18 square root 909 standard annuity activity 769 standard deviation, stdDev 883 start timer, startTmr...
See also regressions status battery low 71 on , PlotsOn . . . . 311, 628, 855 random norm, randNorm( ) . . . . 863 random number seed, RandSeed . . 747 863 random number, rand 862 Scatter plots 555 show results, ShowStat . . . . 548, 876 standard deviation, stdDev( ) . . . 883 two-variable results, TwoVar . . . 546, 893 variables 548 variance, variance 894 xyline plots 555 statistics. status and open Apps 6 viewing 18 square root 909 standard annuity activity 769 standard deviation, stdDev 883 start timer, startTmr...