User Guide
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fx-100MS fx-115MS (fx-912MS) User's Guide 2 (Additional Functions) kfx-912MS owners Please be sure to read the important notice of this manual. E http://world.casio.com/edu_e/
fx-100MS fx-115MS (fx-912MS) User's Guide 2 (Additional Functions) kfx-912MS owners Please be sure to read the important notice of this manual. E http://world.casio.com/edu_e/
User Guide
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Important! CASIO ELECTRONICS CO., LTD. Unit 6, 1000 North Circular Road, London NW2 7JD, U.K. Please keep your manual and all information handy for future reference.
Important! CASIO ELECTRONICS CO., LTD. Unit 6, 1000 North Circular Road, London NW2 7JD, U.K. Please keep your manual and all information handy for future reference.
User Guide
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...; Polar Form Display 8 kConjugate of a Complex Number 9 Base-n Calculations 9 Statistical Calculations 11 Normal Distribution 11 Differential Calculations 12 Integration Calculations 13 Power Supply 14 Specifications 16 See the "fx-95MS/fx-100MS/fx-115MS/fx-570MS/fx991MS User's Guide" for details about the following items. Removing and Replacing the Calculator's Cover/ Safety Precautions/ Handling Precautions/ Two-line Display/ Before getting started... (except for "Modes")/ Basic Calculations/ Memory Calculations/ Scientific Function Calculations/ Equation Calculations/ Statistical...
...; Polar Form Display 8 kConjugate of a Complex Number 9 Base-n Calculations 9 Statistical Calculations 11 Normal Distribution 11 Differential Calculations 12 Integration Calculations 13 Power Supply 14 Specifications 16 See the "fx-95MS/fx-100MS/fx-115MS/fx-570MS/fx991MS User's Guide" for details about the following items. Removing and Replacing the Calculator's Cover/ Safety Precautions/ Handling Precautions/ Two-line Display/ Before getting started... (except for "Modes")/ Basic Calculations/ Memory Calculations/ Scientific Function Calculations/ Equation Calculations/ Statistical...
User Guide
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... calculations Standard deviation Regression calculations Base-n calculations Solution of equations F 1 F 2 F F 1 F F 2 F F 3 F F F 1 COMP CMPLX SD REG BASE EQN • Pressing the F key more than three times displays additional setup screens. Calculation Mode: COMP Angle Unit: Deg Exponential Display Format: Norm 1, Eng OFF Complex Number Display Format: a+b i Fraction Display Format: ab/c Decimal Point Character: Dot E-2 k Modes Before starting a calculation, you must first enter the correct mode as indicated in the main title of the mode you need to enter in order...
... calculations Standard deviation Regression calculations Base-n calculations Solution of equations F 1 F 2 F F 1 F F 2 F F 3 F F F 1 COMP CMPLX SD REG BASE EQN • Pressing the F key more than three times displays additional setup screens. Calculation Mode: COMP Angle Unit: Deg Exponential Display Format: Norm 1, Eng OFF Complex Number Display Format: a+b i Fraction Display Format: ab/c Decimal Point Character: Dot E-2 k Modes Before starting a calculation, you must first enter the correct mode as indicated in the main title of the mode you need to enter in order...
User Guide
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... COMP Functions Use the F key to enter the COMP Mode when you recall multiple expressions from replay so they are automatically turned off while the calculator is the BASE Mode. • You cannot make changes to the angle unit or other display format (Disp) settings while the calculator is in the BASE Mode. • The COMP, CMPLX, SD, and REG modes can be used in the exponent part of the display. • Engineering symbols are...
... COMP Functions Use the F key to enter the COMP Mode when you recall multiple expressions from replay so they are automatically turned off while the calculator is the BASE Mode. • You cannot make changes to the angle unit or other display format (Disp) settings while the calculator is in the BASE Mode. • The COMP, CMPLX, SD, and REG modes can be used in the exponent part of the display. • Engineering symbols are...
User Guide
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... to perform a number of times using different values. Note that CALC memory can be used in replay memory starting from the currently displayed expression and continuing to another mode, or turn off the calculator. Once you store an expression, you start another operation, change to the last expression are copied. prompt.) C 8 = • Note that you want, without the need to 79 steps. E-4 • You can store a single mathematical...
... to perform a number of times using different values. Note that CALC memory can be used in replay memory starting from the currently displayed expression and continuing to another mode, or turn off the calculator. Once you store an expression, you start another operation, change to the last expression are copied. prompt.) C 8 = • Note that you want, without the need to 79 steps. E-4 • You can store a single mathematical...
User Guide
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... (B?) 14 = (A?) ] (C?) 2 = (D?) 9 l 8 = [ [ (A?) A I • The SOLVE function finds approximations based on engineering symbols makes it possible for expression = 0. COMP F 1 k Inputting Engineering Symbols COMP EQN CMPLX • Turning on Newton's method, which means that error can occur. Gravitational acceleration is D = 9.8 m/s2. (Result: A = 16.8) 1 B ҃ AC - 2 DC 2 p 2 p u p 1 - E-5 Scientific Function Calculations COMP Use the F key to enter the COMP Mode when you to calculate initial velocity A for a height of B = 14 meters and a time of results. •...
... (B?) 14 = (A?) ] (C?) 2 = (D?) 9 l 8 = [ [ (A?) A I • The SOLVE function finds approximations based on engineering symbols makes it possible for expression = 0. COMP F 1 k Inputting Engineering Symbols COMP EQN CMPLX • Turning on Newton's method, which means that error can occur. Gravitational acceleration is D = 9.8 m/s2. (Result: A = 16.8) 1 B ҃ AC - 2 DC 2 p 2 p u p 1 - E-5 Scientific Function Calculations COMP Use the F key to enter the COMP Mode when you to calculate initial velocity A for a height of B = 14 meters and a time of results. •...
User Guide
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... the setting you reach the setup screen shown below. E-6 To input this symbol: Perform this key operation: k (kilo) M (Mega) G (Giga) T (Tera) m (milli) µ (micro) n (nano) p (pico) f (femto) A k A M A g A t A m A N A n A p A f Unit 103 106 109 1012 10-3 10-6 10-9 10-12 10-15 • For displayed values, the calculator selects the engineering symbol that can be used when engineering symbols are turned on. When engineering symbols are displayed using engineering symbols. Disp...
... the setting you reach the setup screen shown below. E-6 To input this symbol: Perform this key operation: k (kilo) M (Mega) G (Giga) T (Tera) m (milli) µ (micro) n (nano) p (pico) f (femto) A k A M A g A t A m A N A n A p A f Unit 103 106 109 1012 10-3 10-6 10-9 10-12 10-15 • For displayed values, the calculator selects the engineering symbol that can be used when engineering symbols are turned on. When engineering symbols are displayed using engineering symbols. Disp...
User Guide
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... complex numbers. Since complex numbers are used up. • Example: (2ѿ3i)ѿ(4ѿ5i) ҃ 6ѿ8 i (Real part 6) (Imaginary part 8 i) 2 + 3 i + 4 + 5 i = A r E-7 You should not use variables A, B, C, and M only in the CMPLX Mode, however, more memory than normal is used by the calculator, which frequently changes their values. Variables D, E, F, X, and Y are stored in replay memory in the CMPLX Mode. CMPLX F 2 • The current angle unit setting (Deg, Rad, Gra) affects CMPLX Mode calculations. Press A r to enter...
... complex numbers. Since complex numbers are used up. • Example: (2ѿ3i)ѿ(4ѿ5i) ҃ 6ѿ8 i (Real part 6) (Imaginary part 8 i) 2 + 3 i + 4 + 5 i = A r E-7 You should not use variables A, B, C, and M only in the CMPLX Mode, however, more memory than normal is used by the calculator, which frequently changes their values. Variables D, E, F, X, and Y are stored in replay memory in the CMPLX Mode. CMPLX F 2 • The current angle unit setting (Deg, Rad, Gra) affects CMPLX Mode calculations. Press A r to enter...
User Guide
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...; The complex number can also be input using the polar form rЄ. • Example 2: 2 Є 45 ҃ 1 ѿ i (Angle unit: Deg) L 2 A Q 45 = A r k Rectangular Form ↔ Polar Form Display You can determine the absolute value (r) and argument ( ) of the complex number. The polar form is represented as a point in the Gaussian plane, you can use the operation described below to convert a rectangular form complex number to its polar form, and a polar form complex number to toggle the display between the absolute value...
...; The complex number can also be input using the polar form rЄ. • Example 2: 2 Є 45 ҃ 1 ѿ i (Angle unit: Deg) L 2 A Q 45 = A r k Rectangular Form ↔ Polar Form Display You can determine the absolute value (r) and argument ( ) of the complex number. The polar form is represented as a point in the Gaussian plane, you can use the operation described below to convert a rectangular form complex number to its polar form, and a polar form complex number to toggle the display between the absolute value...
User Guide
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... select rectangular form (a+bi) or polar form (rЄ ) for individual values as you input them. • You cannot use scientific functions in binary, octal, decimal, and hexadecimal calculations.You cannot input values that include decimal part and an exponent. • If you input a value that includes a decimal part, the unit automatically cuts off the decimal part. • Negative binary, octal, and hexadecimal values are produced by "rЄ " on the display) k Conjugate of a Complex Number For any complex number...
... select rectangular form (a+bi) or polar form (rЄ ) for individual values as you input them. • You cannot use scientific functions in binary, octal, decimal, and hexadecimal calculations.You cannot input values that include decimal part and an exponent. • If you input a value that includes a decimal part, the unit automatically cuts off the decimal part. • Negative binary, octal, and hexadecimal values are produced by "rЄ " on the display) k Conjugate of a Complex Number For any complex number...
User Guide
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...: 76548 ÷ 1210 ҃ 5168 Octal mode: t o 0. • You can use the following logical operators between values in Base-n calculations: and (logical product), or (logical sum), xor (exclusive or), xnor (exclusive nor), Not (bitwise complement), and Neg (negation). • The following are the allowable ranges for each of the available number systems. Binary Octal Decimal Hexadecimal 1000000000 Ϲ x Ϲ 1111111111...
...: 76548 ÷ 1210 ҃ 5168 Octal mode: t o 0. • You can use the following logical operators between values in Base-n calculations: and (logical product), or (logical sum), xor (exclusive or), xnor (exclusive nor), Not (bitwise complement), and Neg (negation). • The following are the allowable ranges for each of the available number systems. Binary Octal Decimal Hexadecimal 1000000000 Ϲ x Ϲ 1111111111...
User Guide
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... convert the value 51310 to perform a calculation involving normal distribution. Statistical SD Calculations REG Normal Distribution SD Use the F key to enter the SD Mode when you want to its binary, octal, and hexadecimal equivalents. (101102 , 268 , 1616 ) Binary mode: t b l l l 1(d) 22 = 0. SD F F 1 • Press A D, which produces the screen shown below. b 10110. P ( Q ( R ( →t 123 4 E-11 b l l l 1(d) 513 = Ma t h ERROR b • You may not be able to its binary equivalent. o Hexadecimal mode: h 16. Binary mode...
... convert the value 51310 to perform a calculation involving normal distribution. Statistical SD Calculations REG Normal Distribution SD Use the F key to enter the SD Mode when you want to its binary, octal, and hexadecimal equivalents. (101102 , 268 , 1616 ) Binary mode: t b l l l 1(d) 22 = 0. SD F F 1 • Press A D, which produces the screen shown below. b 10110. P ( Q ( R ( →t 123 4 E-11 b l l l 1(d) 513 = Ma t h ERROR b • You may not be able to its binary equivalent. o Hexadecimal mode: h 16. Binary mode...
User Guide
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..., 54, 52 (→t = Ҁ0.284747398, P(t) = 0.38974 ) 55 S 54 S 51 S 55 S 53 S S 54 S 52 S 53 A D 4(→t) = A D 1( P( ) D 0.28 F = Differential Calculations COMP The procedure described below obtains the derivative of variable x, the point (a) at which the differential coefficient is calculated, and the change in x is ∆x = 2 × 10-4 (Result: 7 ) A J 3 p x K , 5 p x + 2 P 2 P 2 e D 4 T = E-12 Use the F key to enter the COMP Mode when you want to perform.
..., 54, 52 (→t = Ҁ0.284747398, P(t) = 0.38974 ) 55 S 54 S 51 S 55 S 53 S S 54 S 52 S 53 A D 4(→t) = A D 1( P( ) D 0.28 F = Differential Calculations COMP The procedure described below obtains the derivative of variable x, the point (a) at which the differential coefficient is calculated, and the change in x is ∆x = 2 × 10-4 (Result: 7 ) A J 3 p x K , 5 p x + 2 P 2 P 2 e D 4 T = E-12 Use the F key to enter the COMP Mode when you want to perform.
User Guide
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... complete. • Display contents are required for integration using Simpson's rule. E-13 The calculator automatically substitutes an appropriate value for ∆x if you do not input one. • Discontinuous points and extreme changes in the range of 1 to 9 as the number of partitions, or you want to perform integration calculations. Use the F key to enter the COMP Mode when you can omit input of a function.
... complete. • Display contents are required for integration using Simpson's rule. E-13 The calculator automatically substitutes an appropriate value for ∆x if you do not input one. • Discontinuous points and extreme changes in the range of 1 to 9 as the number of partitions, or you want to perform integration calculations. Use the F key to enter the COMP Mode when you can omit input of a function.
User Guide
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... continue to use depends on the model number of your calculator. Screw 2 Remove the old battery. 3 Wipe off the sides of new battery with a solar cell alone can see it). 4 Replace the back cover and secure it in place with the five screws. 5 Press 5 to turn power on. Normally, calculators equipped with a dry, soft cloth. u To replace the battery 1 Remove the five screws that the battery should use the calculator as...
... continue to use depends on the model number of your calculator. Screw 2 Remove the old battery. 3 Wipe off the sides of new battery with a solar cell alone can see it). 4 Replace the back cover and secure it in place with the five screws. 5 Press 5 to turn power on. Normally, calculators equipped with a dry, soft cloth. u To replace the battery 1 Remove the five screws that the battery should use the calculator as...
User Guide
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... turn power off if you do not perform any operation for about six minutes. Screw 3 Remove the old battery. 4 Load a new battery into the unit with its positive k and negative l ends facing correctly. 5 Replace the back cover and secure it in improper operation. fx-100MS This calculator is powered by a single AA-size battery. • Replacing the Battery Dim figures on the display of the calculator when the battery is...
... turn power off if you do not perform any operation for about six minutes. Screw 3 Remove the old battery. 4 Load a new battery into the unit with its positive k and negative l ends facing correctly. 5 Replace the back cover and secure it in improper operation. fx-100MS This calculator is powered by a single AA-size battery. • Replacing the Battery Dim figures on the display of the calculator when the battery is...
User Guide
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Approximately 2 years when left with power turned off. Specifications Power Supply: fx-100MS: Single AA-size battery (R6P(SUM-3)) fx-115MS: Solar cell and a single G13 Type button battery (LR44) Battery Life: fx-100MS: Approximately 17,000 hours continuous display of fx-115MS. E-16 Owners of the fx-912MS should refer to the same model. Dimensions: fx-100MS: 20.0 (H) ҂ 78 (W) ҂ 155 (D) mm 13/16Љ (H) ҂...
Approximately 2 years when left with power turned off. Specifications Power Supply: fx-100MS: Single AA-size battery (R6P(SUM-3)) fx-115MS: Solar cell and a single G13 Type button battery (LR44) Battery Life: fx-100MS: Approximately 17,000 hours continuous display of fx-115MS. E-16 Owners of the fx-912MS should refer to the same model. Dimensions: fx-100MS: 20.0 (H) ҂ 78 (W) ҂ 155 (D) mm 13/16Љ (H) ҂...