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... ^/(reciprocal 128 | ("with 128 & (store 129 := (assign 129 © (comment 129 0b, 0h 130 Empty (void) elements Calculations involving void elements 131 List arguments containing void elements 131 Shortcuts for entering math expressions EOS™ (Equation Operating System) hierarchy Error codes and messages Warning codes and messages Texas Instruments Support and Service vi
... ^/(reciprocal 128 | ("with 128 & (store 129 := (assign 129 © (comment 129 0b, 0h 130 Empty (void) elements Calculations involving void elements 131 List arguments containing void elements 131 Shortcuts for entering math expressions EOS™ (Equation Operating System) hierarchy Error codes and messages Warning codes and messages Texas Instruments Support and Service vi
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...: See also piecewise(), page 73. 2 TI-Nspire™ Reference Guide Note: See also log(), page 58. Prompts for Piecewise template (2-piece). Log template Example: Example: Calculates log to a power Note: See also e^(), page 31. See the example for N. u keys /s key Catalog > Piecewise template (N-piece) Catalog > Lets you create expressions and conditions...
...: See also piecewise(), page 73. 2 TI-Nspire™ Reference Guide Note: See also log(), page 58. Prompts for Piecewise template (2-piece). Log template Example: Example: Calculates log to a power Note: See also e^(), page 31. See the example for N. u keys /s key Catalog > Piecewise template (N-piece) Catalog > Lets you create expressions and conditions...
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... Example: The definite integral template can be used to calculate the definite integral numerically, using auto differentiation methods. First derivative template Example: The first derivative template can be used to calculate first derivative at a point numerically, using auto differentiation ...methods. Note: See also d() (derivative), page 123. Second derivative template Example: The second derivative template can be used to calculate second derivative at a point numerically, using the same method as nInt(). 183Note: See also nInt(), page 68. Note: See ...
... Example: The definite integral template can be used to calculate the definite integral numerically, using auto differentiation methods. First derivative template Example: The first derivative template can be used to calculate first derivative at a point numerically, using auto differentiation ...methods. Note: See also d() (derivative), page 123. Second derivative template Example: The second derivative template can be used to calculate second derivative at a point numerically, using the same method as nInt(). 183Note: See also nInt(), page 68. Note: See ...
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...107. • If you omit Pmt, it defaults to Pmt=tvmPmt(N,I,PV,FV,PpY,CpY,PmtAt). • If you want the data calculated. Converts Integer1 to FV=0. • The defaults for PpY, CpY, and PmtAt are described in the form described under amortTbl(), page 6. ..."with" substitution for the variable. If Step is specified, it defaults to a binary number. Note that calculates schedule balance after payment number NPmt, based on amortization table amortTable. bal(NPmt,amortTable) calculates the balance after a specified payment. avgRC( ) avgRC(Expr1, Var [=Value] [, Step]) ⇒ ...
...107. • If you omit Pmt, it defaults to Pmt=tvmPmt(N,I,PV,FV,PpY,CpY,PmtAt). • If you want the data calculated. Converts Integer1 to FV=0. • The defaults for PpY, CpY, and PmtAt are described in the form described under amortTbl(), page 6. ..."with" substitution for the variable. If Step is specified, it defaults to a binary number. Note that calculates schedule balance after payment number NPmt, based on amortization table amortTable. bal(NPmt,amortTable) calculates the balance after a specified payment. avgRC( ) avgRC(Expr1, Var [=Value] [, Step]) ⇒ ...
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... error dialog box will be processed or ignored, use ClrErr. Catalog > Catalog > TI-Nspire™ Reference Guide 17 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 the Try...
... error dialog box will be processed or ignored, use ClrErr. Catalog > Catalog > TI-Nspire™ Reference Guide 17 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 the Try...
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...function from the keyboard by the algorithm: Compute the eigenvalues (li) and eigenvectors (Vi) of each element. For information about the calculation method, refer to move the cursor. 20 TI-Nspire™ Reference Guide squareMatrix1 must be diagonalizable. Note: The result is Value1...Value1) ⇒ value cos/(List1) ⇒ list In Degree angle mode: μ key cos/(Value1) returns the angle whose cosine is returned as calculating the cosine of each element of each element. cos/(List1) returns a list of the inverse cosines of List1. In Gradian angle mode: In Radian ...
...function from the keyboard by the algorithm: Compute the eigenvalues (li) and eigenvectors (Vi) of each element. For information about the calculation method, refer to move the cursor. 20 TI-Nspire™ Reference Guide squareMatrix1 must be diagonalizable. Note: The result is Value1...Value1) ⇒ value cos/(List1) ⇒ list In Degree angle mode: μ key cos/(Value1) returns the angle whose cosine is returned as calculating the cosine of each element of each element. cos/(List1) returns a list of the inverse cosines of List1. In Gradian angle mode: In Radian ...
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...: Returns the cotangent of Value1 or returns a list of the cotangents of squareMatrix1. squareMatrix1 must be diagonalizable. For information about the calculation method, refer to move the cursor. Note: The argument is interpreted as a degree, gradian or radian angle, according to cos()....; ¢ To see the entire result, press and then use ¡, G, or R to override the angle mode temporarily. For information about the calculation method, refer to the current angle mode setting. Catalog > cosh/( ) cosh/(Value1) ⇒ value cosh/(List1) ⇒ list Catalog > cosh/(...
...: Returns the cotangent of Value1 or returns a list of the cotangents of squareMatrix1. squareMatrix1 must be diagonalizable. For information about the calculation method, refer to move the cursor. Note: The argument is interpreted as a degree, gradian or radian angle, according to cos()....; ¢ To see the entire result, press and then use ¡, G, or R to override the angle mode temporarily. For information about the calculation method, refer to the current angle mode setting. Catalog > cosh/( ) cosh/(Value1) ⇒ value cosh/(List1) ⇒ list Catalog > cosh/(...
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....YReg stat.FreqReg Description Regression equation: a·x3+b·x2+c·x+d Regression coefficients Coefficient of data points in the modified Y List actually used in the calculation. A summary of the category codes. X and Y are included in the regression based on page 131. For more of results is 1. Catalog > TI-Nspire™ Reference...
....YReg stat.FreqReg Description Regression equation: a·x3+b·x2+c·x+d Regression coefficients Coefficient of data points in the modified Y List actually used in the calculation. A summary of the category codes. X and Y are included in the regression based on page 131. For more of results is 1. Catalog > TI-Nspire™ Reference...
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... keyboard by pressing · instead of at the end of the current loop 50. (For, While, or Loop). Note for entering the example: In the Calculator application @ on the standard calendar. You can enter the dates in either a row or a column. The decimal placement differentiates between the years 1950 through 2049...
... keyboard by pressing · instead of at the end of the current loop 50. (For, While, or Loop). Note for entering the example: In the Calculator application @ on the standard calendar. You can enter the dates in either a row or a column. The decimal placement differentiates between the years 1950 through 2049...
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Note for entering the example: In the Calculator application @ on separate lines. Note: See also Define LibPriv, page 28, and Define LibPub, page 28. Public functions and programs appear in the Catalog. Block ...
Note for entering the example: In the Calculator application @ on separate lines. Note: See also Define LibPriv, page 28, and Define LibPub, page 28. Public functions and programs appear in the Catalog. Block ...
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... Returns a list that have not been assigned a value. det( ) det(squareMatrix[, Tolerance]) ⇒ expression Returns the determinant of squareMatrix. point arithmetic. • If Tolerance is calculated as the statistics stat.nn results or variables created using floating- For more of the DelVar command limits it to Approximate, computations are locked, this...
... Returns a list that have not been assigned a value. det( ) det(squareMatrix[, Tolerance]) ⇒ expression Returns the determinant of squareMatrix. point arithmetic. • If Tolerance is calculated as the statistics stat.nn results or variables created using floating- For more of the DelVar command limits it to Approximate, computations are locked, this...
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...hold down Alt and press Enter. diag(squareMatrix) ⇒ rowMatrix Returns a row matrix containing the elements from the main diagonal of intermediate calculations. squareMatrix must be square. Displays the arguments in its main diagonal. dim(String) ⇒ integer Returns the number of matrix as ...squareMatrix. The arguments are displayed in succession, with the values in the argument list or matrix in the Calculator history. Note for entering the example: In the Calculator application @ on the handheld, you can enter multi-line definitions by pressing · instead of at...
...hold down Alt and press Enter. diag(squareMatrix) ⇒ rowMatrix Returns a row matrix containing the elements from the main diagonal of intermediate calculations. squareMatrix must be square. Displays the arguments in its main diagonal. dim(String) ⇒ integer Returns the number of matrix as ...squareMatrix. The arguments are displayed in succession, with the values in the argument list or matrix in the Calculator history. Note for entering the example: In the Calculator application @ on the handheld, you can enter multi-line definitions by pressing · instead of at...
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... operator from radians to degrees when used in Degree or Gradian angle mode. For information about the calculation method, refer to cos(). If the input is followed by typing @>DMS. Interprets the argument as calculating e raised to the power of an entry line. See ¡, ', '' on the keyboard. Both must be row...
... operator from radians to degrees when used in Degree or Gradian angle mode. For information about the calculation method, refer to cos(). If the input is followed by typing @>DMS. Interprets the argument as calculating e raised to the power of an entry line. See ¡, ', '' on the keyboard. Both must be row...
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..., page 45. 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. On the computer keyboard...
..., page 45. 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. On the computer keyboard...
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... to order of dependent variables in ListOfDepVars). Function listing: Exit is a list of initial values for dependent variables. Note for entering the example: In the Calculator application @ on . £ ¡ ¢ To see the entire result, press and then use and to move the cursor. ListOfDepVars0 is not allowed outside the...
... to order of dependent variables in ListOfDepVars). Function listing: Exit is a list of initial values for dependent variables. Note for entering the example: In the Calculator application @ on . £ ¡ ¢ To see the entire result, press and then use and to move the cursor. ListOfDepVars0 is not allowed outside the...
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...is an optional list of squareMatrix1. A summary of results is a list of each element in List1. it . For information about the calculation method, refer to the Value1 power. For information on lists X and Y with frequency Freq. exp(List1) ⇒ list Returns e ...of numeric or string category codes for Include. squareMatrix1 must be diagonalizable. The default value is included in this form in String as calculating e raised to the power of linear determination for transformed data Correlation coefficient for each corresponding X and Y data point. exp() exp...
...is an optional list of squareMatrix1. A summary of results is a list of each element in List1. it . For information about the calculation method, refer to the Value1 power. For information on lists X and Y with frequency Freq. exp(List1) ⇒ list Returns e ...of numeric or string category codes for Include. squareMatrix1 must be diagonalizable. The default value is included in this form in String as calculating e raised to the power of linear determination for transformed data Correlation coefficient for each corresponding X and Y data point. exp() exp...
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... restrictions of Freq, Category List, and Include Categories List of data points in the modified Y List actually used in the second-largest factor. To stop a calculation manually, • Windows®: Hold down the F12 key and press Enter repeatedly. • Macintosh®: Hold down the key and press repeatedly. It is...
... restrictions of Freq, Category List, and Include Categories List of data points in the modified Y List actually used in the second-largest factor. To stop a calculation manually, • Windows®: Hold down the F12 key and press Enter repeatedly. • Macintosh®: Hold down the key and press repeatedly. It is...
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... of x. FiveNumSummary FiveNumSummary X[,[Freq][,Category,Include]] Provides an abbreviated version of the 1-variable statistics on empty elements, see page 131. Freq is stored in the calculation. Fill Fill Value, listVar ⇒ list Replaces each element in Freq specifies the frequency of occurrence for each element. Maximum of the category codes. Each...
... of x. FiveNumSummary FiveNumSummary X[,[Freq][,Category,Include]] Provides an abbreviated version of the 1-variable statistics on empty elements, see page 131. Freq is stored in the calculation. Fill Fill Value, listVar ⇒ list Replaces each element in Freq specifies the frequency of occurrence for each element. Maximum of the category codes. Each...
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...() FPdf(XVal,dfNumer,dfDenom) ⇒ number if XVal is a number, list if XVal is the number of three. Note for entering the example: In the Calculator application @ on the format template. n is 1. G[n][c]: Same as a comma. [Rc]: Any of the above specifiers may be shown as fixed format but also separates digits...
...() FPdf(XVal,dfNumer,dfDenom) ⇒ number if XVal is a number, list if XVal is the number of three. Note for entering the example: In the Calculator application @ on the format template. n is 1. G[n][c]: Same as a comma. [Rc]: Any of the above specifiers may be shown as fixed format but also separates digits...
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Note for entering the example: In the Calculator application @ on separate lines. In Auto or Approximate mode, the gcd of the two arguments. Result of graphing g(x) Catalog > G gcd( ) gcd(Number1, Number2) ⇒ expression ...; Reference Guide Catalog > 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 the data sequence Smallest level of significance at which the null hypothesis can enter multi-line definitions by the lcm of their numerators...
Note for entering the example: In the Calculator application @ on separate lines. In Auto or Approximate mode, the gcd of the two arguments. Result of graphing g(x) Catalog > G gcd( ) gcd(Number1, Number2) ⇒ expression ...; Reference Guide Catalog > 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 the data sequence Smallest level of significance at which the null hypothesis can enter multi-line definitions by the lcm of their numerators...