User Manual
Page 17
...; Enter a negative number. ᕣ Evaluate. The results of a list. ᕣ Enter the list elements. Using a List with a comma. ᕤ Select the close brace ( } ) from the LIST menu. a negates a value, as in 5N2=3. On the TI-86, { specifies the beginning of the constant e raised to the 5th, 10th, and 15th powers are displayed as...
...; Enter a negative number. ᕣ Evaluate. The results of a list. ᕣ Enter the list elements. Using a List with a comma. ᕤ Select the close brace ( } ) from the LIST menu. a negates a value, as in 5N2=3. On the TI-86, { specifies the beginning of the constant e raised to the 5th, 10th, and 15th powers are displayed as...
User Manual
Page 37
... or instruction typically is an instruction that, when executed, clears all drawn elements from the other with a letter, press that resolves to Z Reference describes all TI-86 functions and instructions, including their required and optional arguments. Some instructions take more valid arguments. As you enter the arguments. For example, Circl( requires three... the name. In the CATALOG, to move to be in brackets ( ã and ä ). Some functions require the arguments to the first item beginning with a comma. n 1 ãLä ãOä ãGä ¤ 1 1 45).
... or instruction typically is an instruction that, when executed, clears all drawn elements from the other with a letter, press that resolves to Z Reference describes all TI-86 functions and instructions, including their required and optional arguments. Some instructions take more valid arguments. As you enter the arguments. For example, Circl( requires three... the name. In the CATALOG, to move to be in brackets ( ã and ä ). Some functions require the arguments to the first item beginning with a comma. n 1 ãLä ãOä ãGä ¤ 1 1 45).
User Manual
Page 82
On the TI-86, you enter them (as shown to the right). The separator ( , or ± ) determines the form. ♦ To enter rectangular form, separate real and imaginary with a comma (P). ♦ To enter polar form, separate magnitude and angle with complex numbers stored to them (as shown to the right). Using Complex Numbers A complex...
On the TI-86, you enter them (as shown to the right). The separator ( , or ± ) determines the form. ♦ To enter rectangular form, separate real and imaginary with a comma (P). ♦ To enter polar form, separate magnitude and angle with complex numbers stored to them (as shown to the right). Using Complex Numbers A complex...
User Manual
Page 84
72 Chapter 4: Constants, Conversions, Bases, and Complex Numbers Select { and } from the LIST menu. angle (real,imaginary) angle (magnitude±angle) complexValue4Rec complexValue 4Pol Returns the polar angle of a complex number, list, vector, or matrix calculated as tanL1 (imaginaryàreal) (adjusted by p in the second quadrant or Lp in the third quadrant); the result is tanL1(imaginaryàreal) Returns angle (where Lp You must enter commas to separate list elements.
72 Chapter 4: Constants, Conversions, Bases, and Complex Numbers Select { and } from the LIST menu. angle (real,imaginary) angle (magnitude±angle) complexValue4Rec complexValue 4Pol Returns the polar angle of a complex number, list, vector, or matrix calculated as tanL1 (imaginaryàreal) (adjusted by p in the second quadrant or Lp in the third quadrant); the result is tanL1(imaginaryàreal) Returns angle (where Lp You must enter commas to separate list elements.
User Manual
Page 165
... the expression. List names, including fStat, xStat, and yStat, are evaluated first. Each list element can be an expression. ᕤ Select } from the other with a comma. " & An ellipsis (...) indicates that precedes the list. ᕢ Select { from the LIST menu to end the list. Creating, Storing, and Displaying Lists Entering a List Directly...
... the expression. List names, including fStat, xStat, and yStat, are evaluated first. Each list element can be an expression. ᕤ Select } from the other with a comma. " & An ellipsis (...) indicates that precedes the list. ᕢ Select { from the LIST menu to end the list. Creating, Storing, and Displaying Lists Entering a List Directly...
User Manual
Page 174
" & 1 ãLä 1 \ 10 & P 1 1 ãAä ãDä ãDä 1 10 E b Form( is pasted to the cursor location. ᕣ Enter a formula in quotation marks. ᕤ Enter a comma and then the list name to which you include more than one list name in an attached formula, each list must have the same dimension. ...
" & 1 ãLä 1 \ 10 & P 1 1 ãAä ãDä ãDä 1 10 E b Form( is pasted to the cursor location. ᕣ Enter a formula in quotation marks. ᕤ Enter a comma and then the list name to which you include more than one list name in an attached formula, each list must have the same dimension. ...
User Manual
Page 182
... a Vector on the Home Screen ᕡ Define the beginning of the vector with ã. ᕢ Enter each vector element, separating each from the next with a comma. ᕣ Define the end of the vector with ä. ᕤ Store the vector to eight characters long, starting with a letter. The vector is displayed horizontally...
... a Vector on the Home Screen ᕡ Define the beginning of the vector with ã. ᕢ Enter each vector element, separating each from the next with a comma. ᕣ Define the end of the vector with ä. ᕤ Store the vector to eight characters long, starting with a letter. The vector is displayed horizontally...
User Manual
Page 192
...on the Home Screen ᕡ Define the start of the matrix with ã, and then define the start of each row with commas. Then define the end of the first row with ä. ᕣ Store the matrix to eight characters long, starting with ã...is displayed. Enter each subsequent row with a letter, or select a name from two real matrices with a comma. The matrix is not necessary when it precedes X. For example, when you enter the matrix [[1,2][5,(3,1)]], the TI-86 displays [[(1,0) (2,0)][(5,0) (3,1)]]. n ãMä ãAä ãTä 1 1 1 b Creating ...
...on the Home Screen ᕡ Define the start of the matrix with ã, and then define the start of each row with commas. Then define the end of the first row with ä. ᕣ Store the matrix to eight characters long, starting with ã...is displayed. Enter each subsequent row with a letter, or select a name from two real matrices with a comma. The matrix is not necessary when it precedes X. For example, when you enter the matrix [[1,2][5,(3,1)]], the TI-86 displays [[(1,0) (2,0)][(5,0) (3,1)]]. n ãMä ãAä ãTä 1 1 1 b Creating ...
User Manual
Page 405
...INCREMENT 06 BREAK 07 SYNTAX ♦ You attempted to enter a number that is beyond the calculator's range. ♦ You attempted to execute an expression with a result that is beyond the calculator's range. ♦ You attempted to divide by zero. ♦ You attempted a linear...Reference. You pressed ^ to use a matrix with repeated eigenvalues as restrictions on a graph. You entered a value; The TI-86 allows for misplaced functions, arguments, parentheses, or commas; Errors 1 through 5 do not occur during graphing. To find the proper arguments for a function or instruction, as ...
...INCREMENT 06 BREAK 07 SYNTAX ♦ You attempted to enter a number that is beyond the calculator's range. ♦ You attempted to execute an expression with a result that is beyond the calculator's range. ♦ You attempted to divide by zero. ♦ You attempted a linear...Reference. You pressed ^ to use a matrix with repeated eigenvalues as restrictions on a graph. You entered a value; The TI-86 allows for misplaced functions, arguments, parentheses, or commas; Errors 1 through 5 do not occur during graphing. To find the proper arguments for a function or instruction, as ...