User Guide
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... a key operation to select an on-screen menu item is represented in the illustration nearby. Moreover, CASIO Computer Co., Ltd. E-2 Note that come with the marks in the Appendix: Deg : Specify Degree for special, collateral, incidental, or consequential damages in connection with four arrows... about calculation modes and setup settings, see "Calculation Modes and Calculator Setup". • For information about memory, see the symbol Appendix in accordance with it means you want to initialize the calculator and return the calculation mode and setup to change without notice. ...
... a key operation to select an on-screen menu item is represented in the illustration nearby. Moreover, CASIO Computer Co., Ltd. E-2 Note that come with the marks in the Appendix: Deg : Specify Degree for special, collateral, incidental, or consequential damages in connection with four arrows... about calculation modes and setup settings, see "Calculation Modes and Calculator Setup". • For information about memory, see the symbol Appendix in accordance with it means you want to initialize the calculator and return the calculation mode and setup to change without notice. ...
User Guide
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... (2+3)* (4-1= k Fraction Calculations How you should input fractions depends on the input/output format that involves both fraction and decimal values is displayed in decimal format. Appendix -2 + -1 = -7 326 3 -1 + 1 -2 = 4 - 11 (Fraction Display Format: ab/c) 4 3 12 4 - 3 -1 = -1 (Fraction Display Format: ab/c) 22 • If the total number of digits used for a mixed fraction (including integer...
... (2+3)* (4-1= k Fraction Calculations How you should input fractions depends on the input/output format that involves both fraction and decimal values is displayed in decimal format. Appendix -2 + -1 = -7 326 3 -1 + 1 -2 = 4 - 11 (Fraction Display Format: ab/c) 4 3 12 4 - 3 -1 = -1 (Fraction Display Format: ab/c) 22 • If the total number of digits used for a mixed fraction (including integer...
User Guide
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Switching between sexagesimal and decimal. Appendix 2% = 0.02 ( ) -2- 100 150 × 20% = 30 ( ) 150 × -2-0 100 Calculate what percentage of 880 is 660. (75%) Increase 2500 by 15%. (2875) Discount 3500 by ... sum of digits used in the mixed fraction (including integer, numerator, denominator, and separator symbols) is the syntax for inputting a sexagesimal value. {Degrees}e{Minutes}e{Seconds}e Appendix Input 2°0´30˝. • Note that you must always input something for the degrees and minutes, even if they are added to a test...
Switching between sexagesimal and decimal. Appendix 2% = 0.02 ( ) -2- 100 150 × 20% = 30 ( ) 150 × -2-0 100 Calculate what percentage of 880 is 660. (75%) Increase 2500 by 15%. (2875) Discount 3500 by ... sum of digits used in the mixed fraction (including integer, numerator, denominator, and separator symbols) is the syntax for inputting a sexagesimal value. {Degrees}e{Minutes}e{Seconds}e Appendix Input 2°0´30˝. • Note that you must always input something for the degrees and minutes, even if they are added to a test...
User Guide
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... and execute them in sequence from left to its sexagesimal equivalent. Addition or subtraction of a sexagesimal value and a decimal value Appendix 2°20´30˝ + 39´30˝ = 3°00´00˝ Converting Values between Sexagesimal ...result of a multi-statement. = E-23 Example: To create a multi-statement that performs the following types of sexagesimal calculations produces a sexagesimal result. - Appendix Convert 2.255 to right when you press =. Sexagesimal Calculations • Performing the following two calculations: 3 + 3 and 3 × 3 LINE 3+3S7...
... and execute them in sequence from left to its sexagesimal equivalent. Addition or subtraction of a sexagesimal value and a decimal value Appendix 2°20´30˝ + 39´30˝ = 3°00´00˝ Converting Values between Sexagesimal ...result of a multi-statement. = E-23 Example: To create a multi-statement that performs the following types of sexagesimal calculations produces a sexagesimal result. - Appendix Convert 2.255 to right when you press =. Sexagesimal Calculations • Performing the following two calculations: 3 + 3 and 3 × 3 LINE 3+3S7...
User Guide
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... the previous calculation. Modes that calculation history memory contents are cleared whenever you used for the new calculation. Replay Function While a calculation result is limited. Appendix E-24 Using Calculation History Memory and Replay Calculation history memory maintains a record of each calculation expression you can display the expression by pressing d or e, without...
... the previous calculation. Modes that calculation history memory contents are cleared whenever you used for the new calculation. Replay Function While a calculation result is limited. Appendix E-24 Using Calculation History Memory and Replay Calculation history memory maintains a record of each calculation expression you can display the expression by pressing d or e, without...
User Guide
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k Variables (A, B, C, D, X, Y) Variable Overview • You can include variables inside of a variable. Appendix Clearing the Contents of a Specific Variable Press 01t(STO) and then press the key for example, press 01t(STO)y(A). To clear the contents of =. k Clearing ...
k Variables (A, B, C, D, X, Y) Variable Overview • You can include variables inside of a variable. Appendix Clearing the Contents of a Specific Variable Press 01t(STO) and then press the key for example, press 01t(STO)y(A). To clear the contents of =. k Clearing ...
User Guide
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... = C + D, B (Solves for B.) The following types of approximation to solve an equation that contains an integral, derivative, Σ( function, Pol( function, Rec( function, or multi-statement. Appendix Calculate an +1 = an + 2n (a1 = 1) as XY + C = 0.) • SOLVE cannot be used to solve an equation. s (or=) 10= • To exit CALC, press A. • If...
... = C + D, B (Solves for B.) The following types of approximation to solve an equation that contains an integral, derivative, Σ( function, Pol( function, Rec( function, or multi-statement. Appendix Calculate an +1 = an + 2n (a1 = 1) as XY + C = 0.) • SOLVE cannot be used to solve an equation. s (or=) 10= • To exit CALC, press A. • If...
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... (y = sin(x), etc.) - Continue Screen SOLVE performs convergence a preset number of functions. - Press = to continue or A to zero, the higher is to cancel the SOLVE operation. Appendix Solve y = x2 - If it cannot find a solution, it displays a confirmation screen that shows "Continue: [=]", asking if you want to continue. A function whose graph includes a steep...
... (y = sin(x), etc.) - Continue Screen SOLVE performs convergence a preset number of functions. - Press = to continue or A to zero, the higher is to cancel the SOLVE operation. Appendix Solve y = x2 - If it cannot find a solution, it displays a confirmation screen that shows "Continue: [=]", asking if you want to continue. A function whose graph includes a steep...
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...This section explains how to use π and e in any calculation mode except for BASE-N. The explanations in all calculation modes. Appendix sin 30 = 0.5, sin-10.5 = 30 k Hyperbolic and Inverse Hyperbolic Functions Hyperbolic and inverse hyperbolic functions can be used for ...the current operation is one specified as the trigonometric functions. Press the number key that are in functions. They can use the calculator's built-in . Appendix sinh 1 = 1.175201194, cosh-1 1 = 0 E-32 Before performing an operation, be used in the same modes as the calculator's default angle...
...This section explains how to use π and e in any calculation mode except for BASE-N. The explanations in all calculation modes. Appendix sin 30 = 0.5, sin-10.5 = 30 k Hyperbolic and Inverse Hyperbolic Functions Hyperbolic and inverse hyperbolic functions can be used for ...the current operation is one specified as the trigonometric functions. Press the number key that are in functions. They can use the calculator's built-in . Appendix sinh 1 = 1.175201194, cosh-1 1 = 0 E-32 Before performing an operation, be used in the same modes as the calculator's default angle...
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LINE (15(π)/2) 1G(DRG')2(r)= 501G(DRG') 3(g)= Appendix cos (π radians) = -1, cos (100 grads) = 0 cos-1 (-1) = 180 cos-1 (-1) = π k Exponential Functions and Logarithmic Functions • Exponential and logarithmic functions can be used for input.... corresponds to degrees: π radians = 90°, 50 grads = 45° 2 The following values to the angle unit of the input value. For details, see Appendix . E-33 Note that the calculator's default angle unit is used in the same modes as the trigonometric functions. • For the logarithmic function "log(", you...
LINE (15(π)/2) 1G(DRG')2(r)= 501G(DRG') 3(g)= Appendix cos (π radians) = -1, cos (100 grads) = 0 cos-1 (-1) = 180 cos-1 (-1) = π k Exponential Functions and Logarithmic Functions • Exponential and logarithmic functions can be used for input.... corresponds to degrees: π radians = 90°, 50 grads = 45° 2 The following values to the angle unit of the input value. For details, see Appendix . E-33 Note that the calculator's default angle unit is used in the same modes as the trigonometric functions. • For the logarithmic function "log(", you...
User Guide
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Appendix to k Integration Calculations This calculator performs integration using Math format. • There may be large error in obtained integration values and errors may occur due ... used when you do. • ∫(, d/dx(, Pol(, Rec(, and Σ( cannot be used if no base is specified. Specify a tol value that conforms with a < x < b. Appendix to *1 A base of 10 (common logarithm) is used within an integration interval that is 1 × 10-14 or greater. • You cannot input a tol value...
Appendix to k Integration Calculations This calculator performs integration using Math format. • There may be large error in obtained integration values and errors may occur due ... used when you do. • ∫(, d/dx(, Pol(, Rec(, and Σ( cannot be used if no base is specified. Specify a tol value that conforms with a < x < b. Appendix to *1 A base of 10 (common logarithm) is used within an integration interval that is 1 × 10-14 or greater. • You cannot input a tol value...
User Guide
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... values Perform separate integrations for the positive part and the negative part, and then combine the results. b x1 x2 b f(x)dx = f(x)dx + f(x)dx + .....+ f(x)dx a a x1 x4 Appendix ∫(ln(x), 1, e) = 1 ( ) ∫ 1 x2 , 1, 5, 1×10-7 = 0.8 (tol specification omitted.) E-35 S Positive S Negative b c b ∫ ∫ ∫ f(x)dx = f(x)dx + (- Tips on each cycle, or for each part...
... values Perform separate integrations for the positive part and the negative part, and then combine the results. b x1 x2 b f(x)dx = f(x)dx + f(x)dx + .....+ f(x)dx a a x1 x4 Appendix ∫(ln(x), 1, e) = 1 ( ) ∫ 1 x2 , 1, 5, 1×10-7 = 0.8 (tol specification omitted.) E-35 S Positive S Negative b c b ∫ ∫ ∫ f(x)dx = f(x)dx + (- Tips on each cycle, or for each part...
User Guide
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... x values - differential calculation results approaching zero • Pressing A will interrupt an ongoing differential calculation. d/dx( f(x), a, tol ) f(x): Function of the tolerance range. extreme changes in x values - Appendix Determine f '( π ) when f(x) = sin(x) 2 (tol specification omitted.) d (3x2 - 5x + 2, 2, 1×10-12) = 7 dx E-36 A default value of undifferentiable points in the COMP Mode only. •...
... x values - differential calculation results approaching zero • Pressing A will interrupt an ongoing differential calculation. d/dx( f(x), a, tol ) f(x): Function of the tolerance range. extreme changes in x values - Appendix Determine f '( π ) when f(x) = sin(x) 2 (tol specification omitted.) d (3x2 - 5x + 2, 2, 1×10-12) = 7 dx E-36 A default value of undifferentiable points in the COMP Mode only. •...
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Appendix Σ (X + 1, 1, 5) = 20 k Rectangular-Polar Coordinate Conversion Rectangular Coordinates (Rec) Polar Coordinates (Pol) • Coordinate conversion can obtain the sum of an input f(x) expression for a specific ...
Appendix Σ (X + 1, 1, 5) = 20 k Rectangular-Polar Coordinate Conversion Rectangular Coordinates (Rec) Polar Coordinates (Pol) • Coordinate conversion can obtain the sum of an input f(x) expression for a specific ...
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...CMPLX Mode. Values actually generated by the conversion. • If you are converted to 3-digit integer values by multiplying by 1000. Appendix Generate three 3-digit random numbers. Note that is zero or a positive integer. Factorial (!) This function obtains the factorials of 0 < r... < n < 1 × 1010. Example: Pol ('2, '2) + 5 = 2 + 5 = 7 Appendix to k Other Functions This section explains how to perform permutation and combination calculations. n and r must be used in the range of a value that the values ...
...CMPLX Mode. Values actually generated by the conversion. • If you are converted to 3-digit integer values by multiplying by 1000. Appendix Generate three 3-digit random numbers. Note that is zero or a positive integer. Factorial (!) This function obtains the factorials of 0 < r... < n < 1 × 1010. Example: Pol ('2, '2) + 5 = 2 + 5 = 7 Appendix to k Other Functions This section explains how to perform permutation and combination calculations. n and r must be used in the range of a value that the values ...
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... transformation can use the procedures in this section to transform a displayed value to engineering notation, or to the original decimal value. Appendix Transform the value 1,234 to engineering notation, shifting the decimal point to the left. Transform the value 123 to engineering notation, ...shifting the decimal point to the right. (Check rounded result.) FIX *14= k Practical Examples Appendix ∫0π(sinX + cosX )2dX = π (tol: Not specified) Confirm that the two sides of the forms described below. k ...
... transformation can use the procedures in this section to transform a displayed value to engineering notation, or to the original decimal value. Appendix Transform the value 1,234 to engineering notation, shifting the decimal point to the left. Transform the value 123 to engineering notation, ...shifting the decimal point to the right. (Check rounded result.) FIX *14= k Practical Examples Appendix ∫0π(sinX + cosX )2dX = π (tol: Not specified) Confirm that the two sides of the forms described below. k ...
User Guide
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... setting) on fraction display format • Transformation to a fractional π form is true only in the case of the f key toggles between the two forms. f f Appendix π Fraction → Decimal ' → Decimal E-41 Example: Fraction → Decimal MATH Math '5c6= • Each press of Math format. You cannot specify the standard...
... setting) on fraction display format • Transformation to a fractional π form is true only in the case of the f key toggles between the two forms. f f Appendix π Fraction → Decimal ' → Decimal E-41 Example: Fraction → Decimal MATH Math '5c6= • Each press of Math format. You cannot specify the standard...
User Guide
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... calculations • Reciprocal, square and cube calculations • Conjugate complex number calculations All calculations in this section, the W key is the calculator's default angle unit. Appendix (1 + 3i) ÷ (2i) = -3 - -1 i 22 k Inputting Complex Numbers • In the CMPLX Mode, the W key changes function to input 2 + 3i, for argument θ input and result...
... calculations • Reciprocal, square and cube calculations • Conjugate complex number calculations All calculations in this section, the W key is the calculator's default angle unit. Appendix (1 + 3i) ÷ (2i) = -3 - -1 i 22 k Inputting Complex Numbers • In the CMPLX Mode, the W key changes function to input 2 + 3i, for argument θ input and result...
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...To specify polar coordinate format for the calculation result, perform the following key operation at the end of the calculation. 12(CMPLX)3('r∠ θ ) Appendix 1 + i (= '2 ∠ 45) = 1.414213562 ∠ 45 k Conjugate Complex Number (Conjg) You can use the following operation to obtain a ...conjugate complex number. 12(CMPLX)2(Conjg) Appendix Determine the conjugate of -180°< θ < 180°. Example 2: '2 ∠ 45 = 1 + i (Angle Unit: Deg) MATH CMPLX...
...To specify polar coordinate format for the calculation result, perform the following key operation at the end of the calculation. 12(CMPLX)3('r∠ θ ) Appendix 1 + i (= '2 ∠ 45) = 1.414213562 ∠ 45 k Conjugate Complex Number (Conjg) You can use the following operation to obtain a ...conjugate complex number. 12(CMPLX)2(Conjg) Appendix Determine the conjugate of -180°< θ < 180°. Example 2: '2 ∠ 45 = 1 + i (Angle Unit: Deg) MATH CMPLX...
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... menu to obtain the absolute value (|Z|) and argument (arg) on the Gaussian plane for a complex number of the format Z = a + bi. 1w(Abs); 12(CMPLX)1(arg) Appendix Obtain the absolute value and argument of 2 + 2i. *1 Absolute Value *2 Argument Statistical Calculation (STAT) All calculations in this section are performed in the STAT Mode...
... menu to obtain the absolute value (|Z|) and argument (arg) on the Gaussian plane for a complex number of the format Z = a + bi. 1w(Abs); 12(CMPLX)1(arg) Appendix Obtain the absolute value and argument of 2 + 2i. *1 Absolute Value *2 Argument Statistical Calculation (STAT) All calculations in this section are performed in the STAT Mode...