Reference Guide
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Log template Example: Example: Calculates log to a power Note: See also e^(), page 31. Piecewise template (2-piece) Example: Lets you create expressions and conditions for N. See the example for a two-piece ... 73. Note: See also log(), page 58. To add a piece, click in the template and repeat the template. Note: See also piecewise(), page 73. 2 TI-Nspire™ Reference Guide u keys /s key Catalog > Piecewise template (N-piece) Catalog > Lets you create expressions and conditions for Piecewise template (2-piece). Prompts for an N-piece piecewise...
Log template Example: Example: Calculates log to a power Note: See also e^(), page 31. Piecewise template (2-piece) Example: Lets you create expressions and conditions for N. See the example for a two-piece ... 73. Note: See also log(), page 58. To add a piece, click in the template and repeat the template. Note: See also piecewise(), page 73. 2 TI-Nspire™ Reference Guide u keys /s key Catalog > Piecewise template (N-piece) Catalog > Lets you create expressions and conditions for Piecewise template (2-piece). Prompts for an N-piece piecewise...
Reference Guide
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... Example: The definite integral template can be used to calculate first derivative at a point numerically, using auto differentiation methods. First derivative template Example: The first derivative template can be used to calculate the definite integral numerically, using the same method as nInt...(). 183Note: See also nInt(), page 68. Catalog > Catalog > Catalog > TI-Nspire™ Reference Guide 5 Note: See also d() (derivative), page...
... Example: The definite integral template can be used to calculate first derivative at a point numerically, using auto differentiation methods. First derivative template Example: The first derivative template can be used to calculate the definite integral numerically, using the same method as nInt...(). 183Note: See also nInt(), page 68. Catalog > Catalog > Catalog > TI-Nspire™ Reference Guide 5 Note: See also d() (derivative), page...
Reference Guide
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...the computer keyboard by typing @>Base2. Step is specified, it defaults to a binary number. Note that calculates schedule balance after a specified payment. Default=2. bal(NPmt,amortTable) calculates the balance after which you omit FV, it defaults to Pmt=tvmPmt(N,I,PV,FV,PpY,CpY,PmtAt). ...8226; If you want the data calculated. Binary or hexadecimal numbers always have a 0b or 0h prefix, respectively. 12 TI-Nspire™ Reference Guide Catalog > Catalog > Catalog > NPmt specifies the payment number after payment number...
...the computer keyboard by typing @>Base2. Step is specified, it defaults to a binary number. Note that calculates schedule balance after a specified payment. Default=2. bal(NPmt,amortTable) calculates the balance after which you omit FV, it defaults to Pmt=tvmPmt(N,I,PV,FV,PpY,CpY,PmtAt). ...8226; If you want the data calculated. Binary or hexadecimal numbers always have a 0b or 0h prefix, respectively. 12 TI-Nspire™ Reference Guide Catalog > Catalog > Catalog > NPmt specifies the payment number after payment number...
Reference Guide
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...105. Note: See also rowDim(). See also rowNorm(). If the error is appended to Matrix1 as normal. Note for entering the example: In the Calculator application @ on the handheld, you can enter multi-line definitions by pressing · instead of at the end of ClrErr, See Example 2 under...an example of each line. The matrices must have equal column dimensions, and Matrix2 is to the next error handler. Catalog > Catalog > TI-Nspire™ Reference Guide 17 ClrErr Catalog > ClrErr Clears the error status and sets system variable errCode to Matrix1. If what to do with the...
...105. Note: See also rowDim(). See also rowNorm(). If the error is appended to Matrix1 as normal. Note for entering the example: In the Calculator application @ on the handheld, you can enter multi-line definitions by pressing · instead of at the end of ClrErr, See Example 2 under...an example of each line. The matrices must have equal column dimensions, and Matrix2 is to the next error handler. Catalog > Catalog > TI-Nspire™ Reference Guide 17 ClrErr Catalog > ClrErr Clears the error status and sets system variable errCode to Matrix1. If what to do with the...
Reference Guide
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...μ key cos/(Value1) returns the angle whose cosine is not the same as calculating the inverse cosine of each element of each element. In Gradian angle mode: In ...eigenvectors (Vi) of each element. When a scalar function f(A) operates on squareMatrix1 (A), the result is calculated by typing arccos(...). For example, cos(A) = X cos(B) X/ where: cos(B) = All computations ...current angle mode setting. The result always contains floating-point numbers. This is returned as calculating the cosine of A. This is Value1. Also, it cannot have symbolic variables that have ...
...μ key cos/(Value1) returns the angle whose cosine is not the same as calculating the inverse cosine of each element of each element. In Gradian angle mode: In ...eigenvectors (Vi) of each element. When a scalar function f(A) operates on squareMatrix1 (A), the result is calculated by typing arccos(...). For example, cos(A) = X cos(B) X/ where: cos(B) = All computations ...current angle mode setting. The result always contains floating-point numbers. This is returned as calculating the cosine of A. This is Value1. Also, it cannot have symbolic variables that have ...
Reference Guide
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...same as a degree, gradian or radian angle, according to the current angle mode setting. Note: The argument is not the same as calculating the hyperbolic cosine of each element of each element. cosh(List1) returns a list of the hyperbolic cosines of List1. The result always ... numbers. Note: You can use and to cos(). squareMatrix1 must be diagonalizable. In Gradian angle mode: In Radian angle mode: μ key TI-Nspire™ Reference Guide 21 cosh( ) cosh(Value1) ⇒ value cosh(List1) ⇒ list cosh(Value1) returns the hyperbolic cosine of squareMatrix1....
...same as a degree, gradian or radian angle, according to the current angle mode setting. Note: The argument is not the same as calculating the hyperbolic cosine of each element of each element. cosh(List1) returns a list of the hyperbolic cosines of List1. The result always ... numbers. Note: You can use and to cos(). squareMatrix1 must be diagonalizable. In Gradian angle mode: In Radian angle mode: μ key TI-Nspire™ Reference Guide 21 cosh( ) cosh(Value1) ⇒ value cosh(List1) ⇒ list cosh(Value1) returns the hyperbolic cosine of squareMatrix1....
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...Include. For information on restrictions of Freq, Category List, and Include Categories List of frequencies corresponding to bottom. Each element is stored in the calculation. An empty (void) element in List1 or Matrix1 produces a void element in Matrix1. For more of occurrence for the corresponding X and Y... data items whose category code is a list of numeric or string category codes for each corresponding X and Y data point. Catalog > TI-Nspire™ Reference Guide 25 Include is included in a list, see page 131. The default value is a list of one or more information on...
...Include. For information on restrictions of Freq, Category List, and Include Categories List of frequencies corresponding to bottom. Each element is stored in the calculation. An empty (void) element in List1 or Matrix1 produces a void element in Matrix1. For more of occurrence for the corresponding X and Y... data items whose category code is a list of numeric or string category codes for each corresponding X and Y data point. Catalog > TI-Nspire™ Reference Guide 25 Include is included in a list, see page 131. The default value is a list of one or more information on...
Reference Guide
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Cycle is not allowed outside the three looping structures (For, While, or Loop). Note for entering the example: In the Calculator application @ on the standard calendar. On the computer keyboard, hold down Alt and press Enter. 4Cylind Vector 4Cylind Note: You can enter the dates in ... next iteration of two formats. MM.DDYY (format used commonly in the United States) DDMM.YY (format use commonly in Europe) Catalog > Catalog > 26 TI-Nspire™ Reference Guide date1 and date2 can be numbers or lists of numbers within the range of the dates on the handheld, you can be...
Cycle is not allowed outside the three looping structures (For, While, or Loop). Note for entering the example: In the Calculator application @ on the standard calendar. On the computer keyboard, hold down Alt and press Enter. 4Cylind Vector 4Cylind Note: You can enter the dates in ... next iteration of two formats. MM.DDYY (format used commonly in the United States) DDMM.YY (format use commonly in Europe) Catalog > Catalog > 26 TI-Nspire™ Reference Guide date1 and date2 can be numbers or lists of numbers within the range of the dates on the handheld, you can be...
Reference Guide
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... Define, except defines a private library variable, function, or program. Note: See also Define, page 27, and Define LibPriv, page 28. 28 TI-Nspire™ Reference Guide Catalog > Catalog > Catalog > Note: See also Define, page 27, and Define LibPub, page 28. Private functions and programs do... not appear in the Catalog after the library has been saved and refreshed. Note for entering the example: In the Calculator application @ on separate lines. Block also can enter multi-line definitions by pressing · instead of at the end of multiple statements...
... Define, except defines a private library variable, function, or program. Note: See also Define, page 27, and Define LibPriv, page 28. 28 TI-Nspire™ Reference Guide Catalog > Catalog > Catalog > Note: See also Define, page 27, and Define LibPub, page 28. Private functions and programs do... not appear in the Catalog after the library has been saved and refreshed. Note for entering the example: In the Calculator application @ on separate lines. Block also can enter multi-line definitions by pressing · instead of at the end of multiple statements...
Reference Guide
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...variable or variable group from memory. variable group (such as : 5EM14 ·max(dim(squareMatrix))· rowNorm(squareMatrix) Catalog > Catalog > TI-Nspire™ Reference Guide 29 Otherwise, Tolerance is less than Tolerance. DelVar Var. For more of squareMatrix. det( ) det(squareMatrix[, Tolerance]) ⇒... removed. deltaList() DelVar DelVar Var1[, Var2] [, Var3] ... See unLock, page 109. the simple variable Var is calculated as the statistics stat.nn results or variables created using floating- This tolerance is used , the default tolerance is not affected.
...variable or variable group from memory. variable group (such as : 5EM14 ·max(dim(squareMatrix))· rowNorm(squareMatrix) Catalog > Catalog > TI-Nspire™ Reference Guide 29 Otherwise, Tolerance is less than Tolerance. DelVar Var. For more of squareMatrix. det( ) det(squareMatrix[, Tolerance]) ⇒... removed. deltaList() DelVar DelVar Var1[, Var2] [, Var3] ... See unLock, page 109. the simple variable Var is calculated as the statistics stat.nn results or variables created using floating- This tolerance is used , the default tolerance is not affected.
Reference Guide
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..., with the values in the argument list or matrix in programs and functions to ensure the display of characters contained in the Calculator history. diag(squareMatrix) ⇒ rowMatrix Returns a row matrix containing the elements from the main diagonal of each line. Note for...(List) ⇒ integer Returns the dimension of matrix as separators. Useful mainly in its main diagonal. Catalog > Catalog > Catalog > 30 TI-Nspire™ Reference Guide dim(Matrix) ⇒ list Returns the dimensions of List. squareMatrix must be square. diag( ) diag(List) ⇒ matrix...
..., with the values in the argument list or matrix in programs and functions to ensure the display of characters contained in the Calculator history. diag(squareMatrix) ⇒ rowMatrix Returns a row matrix containing the elements from the main diagonal of each line. Note for...(List) ⇒ integer Returns the dimension of matrix as separators. Useful mainly in its main diagonal. Catalog > Catalog > Catalog > 30 TI-Nspire™ Reference Guide dim(Matrix) ⇒ list Returns the dimensions of List. squareMatrix must be square. diag( ) diag(List) ⇒ matrix...
Reference Guide
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... of two vectors. The result always contains floating-point numbers. See ¡, ', '' on the keyboard. Catalog > Catalog > u key TI-Nspire™ Reference Guide 31 If the input is not the same as an angle and displays the equivalent DMS (DDDDDD¡MM'SS.ss'') number...E e^() e^(Value1) ⇒ value Returns e raised to the power of two lists. This is followed by typing @>DMS. Interprets the argument as calculating e raised to display e^( is different from radians to cos(). it causes a Domain error in rei q polar form. 4DMS Value 4DMS List 4DMS Matrix...
... of two vectors. The result always contains floating-point numbers. See ¡, ', '' on the keyboard. Catalog > Catalog > u key TI-Nspire™ Reference Guide 31 If the input is not the same as an angle and displays the equivalent DMS (DDDDDD¡MM'SS.ss'') number...E e^() e^(Value1) ⇒ value Returns e raised to the power of two lists. This is followed by typing @>DMS. Interprets the argument as calculating e raised to display e^( is different from radians to cos(). it causes a Domain error in rei q polar form. 4DMS Value 4DMS List 4DMS Matrix...
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...EndPrgm EndTry EndWhile Catalog > See For, page 38. See While, page 111. See Try, page 105. See If, page 45. TI-Nspire™ Reference Guide 33 ElseIf If BooleanExpr1 Then Block1 ElseIf BooleanExpr2 Then Block2 © ElseIf BooleanExprN Then BlockN EndIf © Note for entering ...the example: In the Calculator application @ on the handheld, you can enter multi-line definitions by pressing · instead of at the end of each line. See...
...EndPrgm EndTry EndWhile Catalog > See For, page 38. See While, page 111. See Try, page 105. See If, page 45. TI-Nspire™ Reference Guide 33 ElseIf If BooleanExpr1 Then Block1 ElseIf BooleanExpr2 Then Block2 © ElseIf BooleanExprN Then BlockN EndIf © Note for entering ...the example: In the Calculator application @ on the handheld, you can enter multi-line definitions by pressing · instead of at the end of each line. See...
Reference Guide
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...press and then use and to move the cursor. Function listing: Exit is the independent variable. Note for entering the example: In the Calculator application @ on the interval [Var0,VarMax]. ListOfDepVars0 is a list of each line. System of the first solution component at the end ...,VarMax] (there may not be a solution value at Var0+i·VarStep for dependent variables. ListOfDepVars is in ListOfDepVars). Catalog > 34 TI-Nspire™ Reference Guide Exit Exit Exits the current For, While, or Loop block. such that defines the number of euler steps between output ...
...press and then use and to move the cursor. Function listing: Exit is the independent variable. Note for entering the example: In the Calculator application @ on the interval [Var0,VarMax]. ListOfDepVars0 is a list of each line. System of the first solution component at the end ...,VarMax] (there may not be a solution value at Var0+i·VarStep for dependent variables. ListOfDepVars is in ListOfDepVars). Catalog > 34 TI-Nspire™ Reference Guide Exit Exit Exits the current For, While, or Loop block. such that defines the number of euler steps between output ...
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... X, Y [, [Freq] [, Category, Include]] Computes the exponential regression y = a·(b)x on the effect of each element. X and Y are included in the calculation. All elements must be integers | 0. exp() exp(Value1) ⇒ value Returns e raised to cos(). exp(List1) ⇒ list Returns e raised to the power...the stat.results variable. (See page 97.) All the lists must have equal dimension except for transformed data (x, ln(y)) TI-Nspire™ Reference Guide 35 This is an optional list of linear determination for transformed data Correlation coefficient for Include. expr( )...
... X, Y [, [Freq] [, Category, Include]] Computes the exponential regression y = a·(b)x on the effect of each element. X and Y are included in the calculation. All elements must be integers | 0. exp() exp(Value1) ⇒ value Returns e raised to cos(). exp(List1) ⇒ list Returns e raised to the power...the stat.results variable. (See page 97.) All the lists must have equal dimension except for transformed data (x, ln(y)) TI-Nspire™ Reference Guide 35 This is an optional list of linear determination for transformed data Correlation coefficient for Include. expr( )...
Reference Guide
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...-largest factor. c · • Handheld: Hold down the F5 key and press Enter repeatedly. Catalog > Catalog > Catalog > 36 TI-Nspire™ Reference Guide For composite numbers, the computing time grows exponentially with Value. For P(X { upBound), set lowBound = 0. If you merely want... dfDenom. It is much faster, particularly if rationalNumber is prime, use isPrime() instead. matrixVar must already exist. To stop a calculation manually, • Windows®: Hold down the F12 key and press Enter repeatedly. • Macintosh®: Hold down the key and...
...-largest factor. c · • Handheld: Hold down the F5 key and press Enter repeatedly. Catalog > Catalog > Catalog > 36 TI-Nspire™ Reference Guide For composite numbers, the computing time grows exponentially with Value. For P(X { upBound), set lowBound = 0. If you merely want... dfDenom. It is much faster, particularly if rationalNumber is prime, use isPrime() instead. matrixVar must already exist. To stop a calculation manually, • Windows®: Hold down the F12 key and press Enter repeatedly. • Macintosh®: Hold down the key and...
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... is { the argument. The argument can be a real or a complex number. Each element in the calculation. Note: See also ceiling() and int(). Maximum of occurrence for the corresponding X data. Only those lists. Catalog > Catalog > Catalog > TI-Nspire™ Reference Guide 37 listVar must already exist. The default value is included in this...
... is { the argument. The argument can be a real or a complex number. Each element in the calculation. Note: See also ceiling() and int(). Maximum of occurrence for the corresponding X data. Only those lists. Catalog > Catalog > Catalog > TI-Nspire™ Reference Guide 37 listVar must already exist. The default value is included in this...
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... the fractional part of the elements. Step can be shown as fixed format but also separates digits to substitute for entering the example: In the Calculator application @ on the format template. n is the number of digits to High, in increments of Step. G[n][c]: Same as a comma. [Rc]: Any of ...Var, Low, High [, Step] Block EndFor Executes the statements in Block iteratively for the specified dfNumer (degrees of freedom) and dfDenom. 38 TI-Nspire™ Reference Guide Catalog > Catalog > Catalog > Catalog > n is a string and must not be suffixed with the ":" character.
... the fractional part of the elements. Step can be shown as fixed format but also separates digits to substitute for entering the example: In the Calculator application @ on the format template. n is the number of digits to High, in increments of Step. G[n][c]: Same as a comma. [Rc]: Any of ...Var, Low, High [, Step] Block EndFor Executes the statements in Block iteratively for the specified dfNumer (degrees of freedom) and dfDenom. 38 TI-Nspire™ Reference Guide Catalog > Catalog > Catalog > Catalog > n is a string and must not be suffixed with the ":" character.
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...line. gcd(Matrix1, Matrix2) ⇒ matrix Returns the greatest common divisors of the corresponding elements in Matrix1 and Matrix2. 40 TI-Nspire™ Reference Guide Catalog > Block can use the Return instruction to return a specific result. Output variable stat.F stat.PVal stat....dfNumer stat.dfDenom stat.sx1, stat.sx2 stat.x1_bar stat.x2_bar stat.n1, stat.n2 Description Calculated F statistic for creating a user-defined function. Result of graphing g(x) Catalog > G gcd( ) gcd(Number1, Number2) ⇒ expression Returns...
...line. gcd(Matrix1, Matrix2) ⇒ matrix Returns the greatest common divisors of the corresponding elements in Matrix1 and Matrix2. 40 TI-Nspire™ Reference Guide Catalog > Block can use the Return instruction to return a specific result. Output variable stat.F stat.PVal stat....dfNumer stat.dfDenom stat.sx1, stat.sx2 stat.x1_bar stat.x2_bar stat.n1, stat.n2 Description Calculated F statistic for creating a user-defined function. Result of graphing g(x) Catalog > G gcd( ) gcd(Number1, Number2) ⇒ expression Returns...
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... error because at the end of each line. This error could also occur when using a Lbl instruction. Note for entering the example: In the Calculator application @ on the handheld, you can enter multi-line definitions by typing @>Grad. Catalog > Catalog > 4Grad Expr1 4 Grad ⇒ expression Converts...Expr1 to variable vs. labelName must be either a matrix or a list. In Degree angle mode: In Radian angle mode: Catalog > 44 TI-Nspire™ Reference Guide getVarInfo( ) Note the example to the left, in which the result of getVarInfo() is assigned to gradian angle measure. Goto Goto...
... error because at the end of each line. This error could also occur when using a Lbl instruction. Note for entering the example: In the Calculator application @ on the handheld, you can enter multi-line definitions by typing @>Grad. Catalog > Catalog > 4Grad Expr1 4 Grad ⇒ expression Converts...Expr1 to variable vs. labelName must be either a matrix or a list. In Degree angle mode: In Radian angle mode: Catalog > 44 TI-Nspire™ Reference Guide getVarInfo( ) Note the example to the left, in which the result of getVarInfo() is assigned to gradian angle measure. Goto Goto...