User Manual
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TI-36X Pro Calculator Important information 2 Examples 3 Switching the calculator on and off 3 Display contrast 3 Home screen 3 2nd functions 5 Modes 5 Multi-tap keys 8 Menus 8 Scrolling expressions and history 9 Answer toggle 10 Last answer 10 Order ...
TI-36X Pro Calculator Important information 2 Examples 3 Switching the calculator on and off 3 Display contrast 3 Home screen 3 2nd functions 5 Modes 5 Multi-tap keys 8 Menus 8 Scrolling expressions and history 9 Answer toggle 10 Last answer 10 Order ...
User Manual
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...Switching the calculator on and off the calculator automatically if no key is cleared, but the history, settings, and memory are retained. The APD™ (Automatic Power Down™) feature turns off & turns on the Home screen. Press and release the % key. 2. The TI-36X Pro screen can... display can scroll left and right (!and ") to lighten the screen). The display is pressed for keystroke examples that demonstrate the TI-36X Pro functions. In the MathPrint™ mode, you can depend on room lighting, battery freshness, and viewing angle. To adjust the contrast...
...Switching the calculator on and off the calculator automatically if no key is cleared, but the history, settings, and memory are retained. The APD™ (Automatic Power Down™) feature turns off & turns on the Home screen. Press and release the % key. 2. The TI-36X Pro screen can... display can scroll left and right (!and ") to lighten the screen). The display is pressed for keystroke examples that demonstrate the TI-36X Pro functions. In the MathPrint™ mode, you can depend on room lighting, battery freshness, and viewing angle. To adjust the contrast...
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... either directly to the right of the entry or on the right side of the next line. Normal cursor. Shows where the next item you calculate an entry on the screen to scroll. Press # and $ to move into the box. 4 Special indicators and cursors may display on the Home screen, depending...
... either directly to the right of the entry or on the right side of the next line. Normal cursor. Shows where the next item you calculate an entry on the screen to scroll. Press # and $ to move into the box. 4 Special indicators and cursors may display on the Home screen, depending...
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... function is indicated on the screen. Notice that 2ND appears as in 123456.78. 5 Press - Modes q Use q to degrees, radians, or gradians. For example, % b 25 < calculates the square root of the values stored in these sample screens. DEG RAD GRAD Sets the angle mode to choose modes.
... function is indicated on the screen. Notice that 2ND appears as in 123456.78. 5 Press - Modes q Use q to degrees, radians, or gradians. For example, % b 25 < calculates the square root of the values stored in these sample screens. DEG RAD GRAD Sets the angle mode to choose modes.
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...). FLOAT 0 1 2 3 4 5 6 7 8 9 Sets the decimal notation mode. REAL real results a+bi rectangular results r±q polar results DEC HEX BIN OCT Sets the number base used for calculations. ENG displays results as in 1.2345678E5 (which is a shortcut key to an integer power. MATHPRINT mode displays most inputs and outputs in the mode menu...
...). FLOAT 0 1 2 3 4 5 6 7 8 9 Sets the decimal notation mode. REAL real results a+bi rectangular results r±q polar results DEC HEX BIN OCT Sets the number base used for calculations. ENG displays results as in 1.2345678E5 (which is a shortcut key to an integer power. MATHPRINT mode displays most inputs and outputs in the mode menu...
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... to the Home screen, press % s. % h (key with a single menu): RECALL VAR (with values set to default of this guidebook describe how to a large number of calculator functions. Press the key repeatedly to display the function that cycles through multiple functions when you access to use the keys.
... to the Home screen, press % s. % h (key with a single menu): RECALL VAR (with values set to default of this guidebook describe how to a large number of calculator functions. Press the key repeatedly to display the function that cycles through multiple functions when you access to use the keys.
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Examples ans 3 V 3 < V 3 < 10 Pressing r displays the last result in memory, even after the calculator is stored to toggle the display result (when possible) between fraction and decimal answers, exact square root and decimal, and exact pi and decimal. This ...
Examples ans 3 V 3 < V 3 < 10 Pressing r displays the last result in memory, even after the calculator is stored to toggle the display result (when possible) between fraction and decimal answers, exact square root and decimal, and exact pi and decimal. This ...
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In MathPrint™ mode, exponentiation using the G key is calculated as (2^3)^2, with a result of 512. The calculator evaluates expressions entered with F and a from right to left to right in the following order. 1st Expressions inside parentheses. 2nd... all R³´P menu items. 3rd Fractions. 4th Functions that are entered after the argument, such as 2^(3^2), with a result of operations The TI-36X Pro calculator uses Equation Operating System (EOS™) to evaluate expressions. Pressing 3 F F is evaluated from left to right and in both Classic and MathPrint&#...
In MathPrint™ mode, exponentiation using the G key is calculated as (2^3)^2, with a result of 512. The calculator evaluates expressions entered with F and a from right to left to right in the following order. 1st Expressions inside parentheses. 2nd... all R³´P menu items. 3rd Fractions. 4th Functions that are entered after the argument, such as 2^(3^2), with a result of operations The TI-36X Pro calculator uses Equation Operating System (EOS™) to evaluate expressions. Pressing 3 F F is evaluated from left to right and in both Classic and MathPrint&#...
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... d1 %˜ In the MathPrint™ mode, fractions with ( and ). Inserts a character at the cursor. Resets the calculator. clears any stored operation, and ans. The numerator must be an integer, and the denominator must be a positive integer. ... numbers, operation keys (T, V, etc.), and most function keys (F, % _, etc.). Clears variables x, y, z, t, a, b, c, and d to default settings; The calculator defaults output to the Home screen. Results are supported when using P. Clearing and correcting %s - J %f %{ % 2 Returns to improper fractions. Clears an error message....
... d1 %˜ In the MathPrint™ mode, fractions with ( and ). Inserts a character at the cursor. Resets the calculator. clears any stored operation, and ans. The numerator must be an integer, and the denominator must be a positive integer. ... numbers, operation keys (T, V, etc.), and most function keys (F, % _, etc.). Clears variables x, y, z, t, a, b, c, and d to default settings; The calculator defaults output to the Home screen. Results are supported when using P. Clearing and correcting %s - J %f %{ % 2 Returns to improper fractions. Clears an error message....
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F³´D 4 %@ 1 P 2 %˜< Examples MathPrint™ mode n/d, U n/d P3 $ 4 " T 1 % @ 7 $12 < n/d ³´Un/d 9 P 2 " d 1 < F³´D 4 %@ 1 $ 2 " %˜< Examples P1.2 T 1.3 $ 4 < (MathPrint™ mode only) (MathPrint™ P M 5 T % b 5 mode only) F U 4 ( 1 ) ( 6 ) $ 2 ( 1 ) < Percentages %_ To perform a calculation involving a percentage, press % _ after entering the value of the percentage. Example 2 % _ V 150 < 15
F³´D 4 %@ 1 P 2 %˜< Examples MathPrint™ mode n/d, U n/d P3 $ 4 " T 1 % @ 7 $12 < n/d ³´Un/d 9 P 2 " d 1 < F³´D 4 %@ 1 $ 2 " %˜< Examples P1.2 T 1.3 $ 4 < (MathPrint™ mode only) (MathPrint™ P M 5 T % b 5 mode only) F U 4 ( 1 ) ( 6 ) $ 2 ( 1 ) < Percentages %_ To perform a calculation involving a percentage, press % _ after entering the value of the percentage. Example 2 % _ V 150 < 15
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Use " to the power indicated. The calculator evaluates expressions entered with F and a from left to right in both Classic and MathPrint™ modes. Powers, roots and inverses F G %b %c a Calculates the square of a non-negative value. Examples q$ Calculates the square root of a value. Raises...move the cursor out of the power. Gives the inverse of a negative value. Calculates the nth root of any non-negative value and any odd integer root of a value: 1/x. The TI-36X Pro calculator evaluates expressions entered with F and a from left to right in both Classic ...
Use " to the power indicated. The calculator evaluates expressions entered with F and a from left to right in both Classic and MathPrint™ modes. Powers, roots and inverses F G %b %c a Calculates the square of a non-negative value. Examples q$ Calculates the square root of a value. Raises...move the cursor out of the power. Gives the inverse of a negative value. Calculates the nth root of any non-negative value and any odd integer root of a value: 1/x. The TI-36X Pro calculator evaluates expressions entered with F and a from left to right in both Classic ...
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Reminder: A = p×r2 g V 12 F < r The area of the circle is approximately 452.4 square cm when rounded to one decimal place. 18 The area of the circle is 12 cm? Example p 2 V g < r ³ Problem What is the area of a circle if the radius is 144 p square cm. 2 %a < Pi g (multi-tap key) p = 3.141592653590 for display. p = 3.141592654 for calculations.
Reminder: A = p×r2 g V 12 F < r The area of the circle is approximately 452.4 square cm when rounded to one decimal place. 18 The area of the circle is 12 cm? Example p 2 V g < r ³ Problem What is the area of a circle if the radius is 144 p square cm. 2 %a < Pi g (multi-tap key) p = 3.141592653590 for display. p = 3.141592654 for calculations.
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... in DMS format. In the default mode, degrees, find the sine of p / 6 radians. 22 Round the results to radian mode and calculate the sine of 30¡. Then set the calculator to two decimal places. -q$$"""< -12 d " " 1 31 d " "2 45 d " " 3 T 26 d " "1 54 d " " 2 38 d " " 3 < d""6< The result is 39 degrees, 26 minutes and 23 seconds. ³...
... in DMS format. In the default mode, degrees, find the sine of p / 6 radians. 22 Round the results to radian mode and calculate the sine of 30¡. Then set the calculator to two decimal places. -q$$"""< -12 d " " 1 31 d " "2 45 d " " 3 T 26 d " "1 54 d " " 2 38 d " " 3 < d""6< The result is 39 degrees, 26 minutes and 23 seconds. ³...
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... rectangular coordinates (x, y) = (3, 4) into rectangular coordinates. Change the calculator to polar and displays q. X 30 d " " < ) < q < XgP6"d""4 ) < Rectangular to polar and displays r. X 30 ) < q " < X g P 6 " ) < Retain radian mode on the calculator and calculate the sine of p / 6 radians. Converts rectangular to polar d ...R³´P d ! Round the results to rectangular and displays x. Set Angle mode, as necessary, before starting calculations. 1: P ´Rx( 2: P ´Ry( 3: R ´Pr( 4: R ´Pq( Converts polar to one ...
... rectangular coordinates (x, y) = (3, 4) into rectangular coordinates. Change the calculator to polar and displays q. X 30 d " " < ) < q < XgP6"d""4 ) < Rectangular to polar and displays r. X 30 ) < q " < X g P 6 " ) < Retain radian mode on the calculator and calculate the sine of p / 6 radians. Converts rectangular to polar d ...R³´P d ! Round the results to rectangular and displays x. Set Angle mode, as necessary, before starting calculations. 1: P ´Rx( 2: P ´Ry( 3: R ´Pr( 4: R ´Pq( Converts polar to one ...
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Example Degree Mode tan q $ $ < - Trigonometry X Y Z (multi-tap keys) Enter trigonometric functions (sin, cos, tan, sin-1, cos-1, tan-1), just as you would write them. Z 45 ) < tan-1 ZZ1)< cos - 5 V Y 60 ) < Example Radian Mode tan q " < - Z g P 4 " ) < 24 Set the desired Angle mode before starting trigonometric calculations. - d ! 1 5 % ` 30 ) < d ! 2 5 % ` 30 ) < d !3 3%`4)< d ! 4 3%`4)< Converting (r, q) = (5, 30) gives (x, y) = (4.3, 2.5) and (x, y) = (3, 4) gives (r, q) = (5.0, 53.1).
Example Degree Mode tan q $ $ < - Trigonometry X Y Z (multi-tap keys) Enter trigonometric functions (sin, cos, tan, sin-1, cos-1, tan-1), just as you would write them. Z 45 ) < tan-1 ZZ1)< cos - 5 V Y 60 ) < Example Radian Mode tan q " < - Z g P 4 " ) < 24 Set the desired Angle mode before starting trigonometric calculations. - d ! 1 5 % ` 30 ) < d ! 2 5 % ` 30 ) < d !3 3%`4)< d ! 4 3%`4)< Converting (r, q) = (5, 30) gives (x, y) = (4.3, 2.5) and (x, y) = (3, 4) gives (r, q) = (5.0, 53.1).
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Then calculate angle B and the length of the right triangle below. m±A 3 c c = 32 + 72 C 7 B q < $ $ " " < -ZZ7P3")< 25 Z Z1 ) < r cos - 5 V Y g P 4 " ) < r ³ Problem Find angle A of the hypotenuse c. Round results to one decimal place. Reminder: tan A = 7-3 therefore m±A = tan-1 ⎛ ⎝ 7-3 ⎞ ⎠ m±A + m±B + 90¡ = 180¡ A therefore m±B = 90¡ - tan-1 - Lengths are in meters.
Then calculate angle B and the length of the right triangle below. m±A 3 c c = 32 + 72 C 7 B q < $ $ " " < -ZZ7P3")< 25 Z Z1 ) < r cos - 5 V Y g P 4 " ) < r ³ Problem Find angle A of the hypotenuse c. Round results to one decimal place. Reminder: tan A = 7-3 therefore m±A = tan-1 ⎛ ⎝ 7-3 ⎞ ⎠ m±A + m±B + 90¡ = 180¡ A therefore m±B = 90¡ - tan-1 - Lengths are in meters.
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Example Set floating q $ $ < decimal HYP - XXX5)T2 < ## Hyperbolics X Y Z (multi-tap keys) Pressing one decimal place, the measure of angle A is 66.8¡, the measure of angle B is 23.2¡, and the length of these multi-tap keys repeatedly lets you access the corresponding hyperbolic or inverse hyperbolic function. Angle modes do not affect hyperbolic calculations. 90 U % i < %b3FT7F< r To one of the hypotenuse is 7.6 meters.
Example Set floating q $ $ < decimal HYP - XXX5)T2 < ## Hyperbolics X Y Z (multi-tap keys) Pressing one decimal place, the measure of angle A is 66.8¡, the measure of angle B is 23.2¡, and the length of these multi-tap keys repeatedly lets you access the corresponding hyperbolic or inverse hyperbolic function. Angle modes do not affect hyperbolic calculations. 90 U % i < %b3FT7F< r To one of the hypotenuse is 7.6 meters.
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... value at which to the power you specify. Examples LOG D D1 ) < LN D 5 ) V 2 < 10› - C CD D 2 ) < D DC C 5 " ) < e› - C .5 < Numeric derivative %A % A calculates an approximate derivative of a number. This function is 1EM3). C raises e to calculate the derivative and H (if not specified, the default is valid only for real numbers. 27 C C raises 10 to the base...
... value at which to the power you specify. Examples LOG D D1 ) < LN D 5 ) V 2 < 10› - C CD D 2 ) < D DC C 5 " ) < e› - C .5 < Numeric derivative %A % A calculates an approximate derivative of a number. This function is 1EM3). C raises e to calculate the derivative and H (if not specified, the default is valid only for real numbers. 27 C C raises 10 to the base...
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In MathPrint™ mode, the default H is 1EM3. Because of the method used to calculate nDeriv(, the calculator can return a false derivative value at x = ---2--- 3 What do you notice? (Fix 3 decimal places.) 28 f′(x) = f--(---x 2-----ε---f--(--x As H becomes smaller, the approximation usually becomes more accurate. ...
In MathPrint™ mode, the default H is 1EM3. Because of the method used to calculate nDeriv(, the calculator can return a false derivative value at x = ---2--- 3 What do you notice? (Fix 3 decimal places.) 28 f′(x) = f--(---x 2-----ε---f--(--x As H becomes smaller, the approximation usually becomes more accurate. ...
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Example in RAD angle mode % Q q " q $$ """" < %A z G 3 " U 4 z "" 2P%b3 < The slope of the tangent line at this point! is zero. A maximum or 3 minimum of an expression with respect to a variable x, given a lower limit and an upper limit. Numeric integral %Q % Q calculates the numeric function integral of the function must be at x = ---2---
Example in RAD angle mode % Q q " q $$ """" < %A z G 3 " U 4 z "" 2P%b3 < The slope of the tangent line at this point! is zero. A maximum or 3 minimum of an expression with respect to a variable x, given a lower limit and an upper limit. Numeric integral %Q % Q calculates the numeric function integral of the function must be at x = ---2---
