Casio FC200VSIH manuals
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149 pages 1.87 Mb
1 CASIO Worldwide Education WebsiteCASIO EDUCATIONAL FORUM 3 About this Manual5 Initializing the Calculator6 Safety Precautions7 Handling Precautions9 ContentsFinancial CalculationkMargin of Safety Sub-mode kDegree of Operating Leverage Sub-mode kDegree of Financial Leverage Sub-mode kDegree of Combined Leverage Sub-mode kQuantity Conversion Sub-mode 10 ShortcutsFunction CalculationskPi (π) and Natural Logarithm Base e kTrigonometric and Inverse Trigonometric kHyperbolic and Inverse Hyperbolic Functions kConverting an Input Value to the Calculator’s kExponential Functions and Logarithmic kPower Functions and Power Root Functions kRectangular-PolarCoordinate Conversion E-8 11 Statistical CalculationTechnical InformationkCalculation Priority Sequence kCalculation Ranges, Number of Digits, and kSpecial Financial Calculation Error Messages kBefore assuming malfunction of the calculator ReferencekPower Requirements and Battery Specifications 12 Before Using the Calculator15 Calculation Modes and Calculator Setup16 ADisplaying the Setup ScreenTo display the setup screen with the skey To display the setup screen by selecting “Set:” on a mode menu 17 ASetup Screen Settings18 AConfiguring Settings1Payment: Compound Interest (CMPD) Mode Amortization (AMRT) Mode This setting specifies the payment date 1:Begin Beginning of period 2:End End of period 1. Use fcto select “Payment”, and then press E 2.Press 1(1:Begin) or 2(2:End) to select the setting you want •You can also use fcto select a setting and then press E Date Mode: This setting specifies the number of days in a year. 1:360 360 days 2:365 365 days 1. Use fcto select “Date Mode”, and then press E 2.Press 1(1:360) or 2(2:365) to select the setting you want 3dn: Compound Interest (CMPD) Mode 1:CI Compound interest 2:SI Simple interest 1. Use fcto select “dn”, and then press E 19 Periods/Y:Bond Date: 20 6Date Input: Day Calculation (DAYS) Mode, Bond (BOND) Mode (FC-200Vonly)1:MDY 2:DMY 1. Use fcto select “Date Input”, and then press E 2.Press 1(1:MDY) or 2(2:DMY) to select the setting you want PRF/Ratio: 1:PRF Profit 2:r% Profit ratio 1. Use fcto select “PRF/ Ratio”, and then press E 2.Press 1(1:PRF) or 2(2:r%) to select the setting you want B-Even: 1: Quantity Sales quantity 2: Sales Sales amount 21 1. Use fcto select “B-Even”,and then press E2.Press 1(1:Quantity) or 2(2:Sales) to select the setting you want 9Digit Sep.: All modes except for the STAT Mode and COMP Mode 1:Superscript 2:Subscript Subscript comma 123,456 3:Off Separator off 1. Use fcto select “Digit Sep.”, and then press E 0Angle: All modes This setting specifies the angle unit used for trigonometric functions 1:Deg Degrees 2:Rad Radians 3:Gra Grads 1.Use fcto select “Angle”, and then press E 22 Fix:Sci: 23 Norm:STAT: %CONTRAST: All modes Note 24 AInitializing the Setup Screen Settings25 Inputting Expressions and Values30 Basic Calculations34 Using Multi-statementsin Calculations35 Using Calculation History Memory and Replay37 Using Calculator Memory38 AUsing Answer Memory to Perform a Series of CalculationsAInputting Answer Memory Contents into an Expression 39 kIndependent Memory (M)AIndependent Memory OverviewTo do this: Perform this key operation: Add the displayed value or result of the expression to independent memory Subtract the displayed value or result of the expression 1m(M–) from independent memory Recall current independent Sm(M) memory contents Assign a specific value or 1. 3+5(for example) 2. 1t(STO) 3. “M:”(fc), then E 4. E(Yes) •You can also store financial calculation value in independent memory Example: In the SMPL Mode, store the value of SI in independent memory (M) 3.“SI”(fc), then E 4.“M:”(fc), then E 5.E(Yes) 40 ACalculation Examples Using Independent MemoryAClearing Independent Memory kVariables (A, B, C, D, X, Y) AVariable Overview 42 kFinancial Calculation Variables (VARS)ATo select an financial calculation variable in the COMP mode AClearing the Contents of VARS Memories Only 43 kClearing Memory Contents2.“Memory:EXE” (fc), then E E-41 44 Financial Calculation45 AOther SMPL Mode Calculations46 SISI = –SI SFV = –(PV + SI') 47 Set*1Payment Period (Payment) Interest Rate Present Value (Principal) –$1,000 PMT Payment Amount –$300 Future Value (Principal and Interest, or Final Payment $16,760 Amount) P/Y Number of Annual Payments (PMT) C/Y*2 Number of Annual Compoundings monthly compound interest After specifying the Input money paid out as a negative value, using the E-45 48 ABasic CMPD Mode ProcedureInput Precautions 3. Press lto perform the calculation Calculating the Number of PaymentsUse the same procedure as shown under “Example 1” (page 49 ACalculating the Number of Months when a Partial Month is IncludedExample 1: 20days When P/Y=12 1.Use fc to select “n” • This example assumes that there are 30 days in the month 3. Add the number of full months (16 in this example) 4. Press E When E-47 51 PMT = – PV + FV nn = – PV + FV PMT n: Number of Payments I% : Interest Rate PV : Present Value (Principal) PMT : Payment Amount 52 PMTFV : Future Value (Principal and Interest, or Final Payment Amount) P/Y : Number of Annual Payments (PMT) P/YC/Y : Number of Annual Compoundings C/Y kCash Flow ModeNPV : Net Present Value IRR : Internal Rate of Return PBP : Payback Period PBP NFV 53 CF2 CF3 CF4 CF5 CF6 CF7CF1 CF0 54 ABasic CASH Mode Procedure55 AOther CASH Mode CalculationsExample 2: To calculate the internal rate of return (IRR) •In step 3 of the basic procedure (Example 1), select “IRR:Solve” •The IRR calculation result is assigned to financial variable (VARS) Example 3: To calculate the payback period (PBP) •In step 3 of the basic procedure (Example 1), select “PBP:Solve” Example 4: To calculate net future value (NFV) •In step 3 of the basic procedure (Example 1), select “NFV: Solve” AMaximum Number of DataEditor ItemsMaximum Number of DataEditor Screen Data Items Only the •Normally, you will be able to input up to 80 data items in the DataEditor To maximize the number of data items you can input, enter the STAT Mode, select ACASH Mode Financial Calculation Variables (VARS)•Variable Iis used in the CASH Mode it E-53 NPV = CF0 + CF1 CF3 NFV = NPV ⋅ (1 + i )n CF2 56 NPVIRR PBP NPVn NPVn+1 – NPVn CFk NPVn = Σ 57 kAmortization ModeBAL INT PRN AEntering the AMRT Mode 58 n*359 ABasic AMRT Mode Procedure60 AOther AMRT Mode CalculationsAAMRT Mode Financial Calculation Variables (VARS) 61 Σ INT = INTPM1 + INTPM1+1 + … + INTPM2BAL = PV INT PRN = PMT 62 AEntering the CNVR ModeABasic CNVR Mode Procedure 64 AEntering the COST ModeABasic COST Mode Procedure 66 kDay Calculation ModeAEntering the DAYS Mode 67 ABasic DAYS Mode Procedure68 AOther DAYS Mode Calculations•Calculation results “d1” and “d2” are not stored in Answer Memory Example 2: 2.In step 2, select “d2” 2.In step 2, select “d1” ADAYS Mode Financial Calculation Variables (VARS)•Variables d1, d2, and Dys are used in the DAYS Mode kDepreciation Mode (FC-200Vonly)SL : Straight-LineMethod FP : Fixed Percentage Method SYD : Sum-of-the-Year’sDigits Method SYDDB : Declining Balance Method 69 AEntering the DEPR ModeABasic DEPR Mode Procedure 70 AOther DEPR Mode Calculations75 AOther Setup ItemsABasic BOND Mode Procedure 76 AOther BOND Mode Calculations77 ABOND Mode Financial Calculation Variables (VARS)80 kBreak-EvenMode (FC-200Vonly)AEntering the BEVN Mode ABEVN Mode Sub-modes kBEV Sub-mode (Break-EvenMode 1) 81 AEntering the BEV Sub-mode1. Press Bto enter the Break-EvenMode 2. Use fc to select “BEV:EXE” 3. Press E 82 ABasic BEV Sub-modeProcedure83 AOther BEV Sub-modeCalculations85 AEntering the MOS Sub-modeABasic MOS Sub-modeProcedure 86 MOSSAL – SBE SAL 87 ABasic DOL Sub-modeProcedureAOther DOL Sub-modeCalculations 89 ABasic DFL Sub-modeProcedureExample 1: To calculate the degree of financial leverage (DFL) 1.Input the required values from the Setting Values table (page E-86) • For this example, use fc to select 1“EIT”, input 400000, and then press E “EIT”, input 400000, and then press •Use fc to select 2“ITR”, input 80000, and then press E “ITR”, input 80000, and then press • For this example, use fc to select 3“DFL” AOther DFL Sub-modeCalculationsExample 2: To calculate earnings before interest and taxes (EBIT), and interest (ITR) ADFL Sub-modeFinancial Calculation Variables (VARS)•Variables EIT, ITR, and DFL are used in the DFL sub- mode E-87 91 ABasic DCL Sub-modeProcedureExample 1: To calculate the degree of combined leverage (DCL) 1.Input the required values from the Setting Values table (page E-88) •Use fc to select 4“ITR”, input 100000, and then press E • For this example, use fc to select 5“DCL” AOther DCL Sub-modeCalculations ADCL Sub-modeFinancial Calculation Variables (VARS)•Variables SAL, VC, FC, ITR, and DCL are used in the DCL sub-mode E-89 93 ABasic QTY CONV. Sub-modeProcedure96 Shortcuts97 5.Use fc to select “Shortcut1”, and then press6.In response to the confirmation screen that appears, press E(Yes) If you want to cancel this operation without assigning anything to u To configure the SHORTCUT2 key 1.Press mto enter the COMP Mode 2.Input the formula shown below (FV – ((–PV)+ (–PMT) ⋅ n)) ⋅ 0.9+ ((–PV)+ (–PMT) ⋅ n) •“FV”, “PV” and “n” are financial calculation variables (VARS) u To use the configured shortcut keys in a calculation 1. Press 1(Shortcut1) 2.Input 60, and then press E E-95 98 AInitializing the Custom Shortcut SettingskFunction Shortcut Keysu To configure an FMEM key u To use the configured function memory key in a calculation 99 AInitializing the Function Shortcut Settings100 Function Calculations101 kHyperbolic and Inverse HyperbolickConverting an Input Value to the Calculator’s Default Angle Unit 102 kExponential Functions andLogarithmic FunctionsExample 1: log216 Example 4: ln e 103 kPower Functions and Power Root105 kRectangular-PolarCoordinateConversionConverting to Polar Coordinates (Pol) Pol(X, Y) X: Specifies the rectangular coordinate X value Y:Specifies the rectangular coordinate Y value •Calculation result θ is displayed in the range of –180° < θ <180° •Calculation result θ is displayed using the calculator’s default angle unit •Calculation result r is assigned to variable X, while θ is assigned to Y Converting to Rectangular Coordinates (Rec) Rec(r,θ) r : Specifies r value of polar coordinate θ: Specifies θ value of polar coordinate •Calculation result x is assigned to variable X, while y is assigned to Y If you perform coordinate conversion inside of an expression instead of a E-103 106 kOther Functions!, Abs(, Ran#, nPr, nCr, Rnd AFactorial (!) 107 AAbsolute Value Calculation (Abs)ARandom Number (Ran#) 108 APermutation (nPr) and Combination (nCr)ARounding Function (Rnd)Display Digits Setting: Norm1 or Norm2 Display Digits Setting: Fix or Sci 110 Statistical Calculation111 ASTAT Editor ScreenAFREQ (Frequency) Column ARules for Inputting Sample Data on the STAT Editor ScreenData you input is inserted into the cell where the cursor is located. Use fcde •Pressing Awhile inputting data clears your current input cell E-109 112 ASTAT Editor Screen Input PrecautionsAPrecautions Concerning Sample Data Storage 113 AEditing Sample DataReplacing the Data in a Cell 1.On the STAT editor screen, move the cursor to the cell you want to edit 2.Input the new data value or expression, and then press Deleting a Line 1.On the STAT editor screen, move the cursor to the line you want to delete 2.Y Inserting a Line 2.17(S-MENU)3(Edit) 3.1(Ins) Deleting All STAT Editor Contents 1.1a(S-MENU)3(Edit) 2.2(Del-A) •This clears all of the sample data on the STAT editor screen kSTAT Calculation Screen 114 kUsing the STAT MenuASTAT Menu ItemsCommon Items Select this When you want to do this: menu item: Paired-variableMenu Item ASingle-variable (1-VAR)Statistical Calculation CommandsCalculation formula used for each command 115 o = Σnx3xσn 4xσn–1 119 n = A + Bx120 5Σxy7Σx2y 6yσn 7yσn–1 124 B = Sxx.Sx2x2 – (Sxx2)2 Sx2y.Sxx – Sxy.Sxx2 C = Sxx.Sx2x2 – (Sxx2)2Sxx = Σx2– (Σx)2 n Sxy = Σxy – (Σx.Σy) n Sxx2 = Σx3 – (Σx.Σx2) n y = Σx y – – B + – 4C A – y – B – n = A + Bx + Cx2 126 → m→ n AComments for Other Types of RegressionStatistical Calculation Type Model Equation y = A + Bln y = AeBX y = ABX y = AXB y = A + 127 n = A + Blnxn= AeBx Power Regression (A•X^B) 128 n = AxBΣy – B.Σx–1 Sxy B = Sxx Sxx.Syy Sxx = Σ(x–1)2 – (Σx–1)2 Syy = Σy2– (Σy)2 n Sxy = Σ(x–1)y – Σx–1.Σyn m= y –B A n = A + Bx 135 ACommand Usage Tips136 Technical Information138 kStack Limitations139 kCalculation Ranges, Number of Digits, and PrecisionCalculation Range and Precision Function Calculation Input Ranges and Precision Input Range 140 nPrnCr 141 Financial Calculation RangeskSpecial Financial Calculation Error MessagesCompound Interest Mode When calculating “n” When calculating “I” When calculating “PV”, “PMT”, “FV” Cash Flow Mode When calculating “NPV” When calculating “IRR” Depreciation Mode When calculating “Depreciation” One or more of “PV”, “FV”, “i%” is negative value Argument ERROR Bond Mode When calculating “PRC” When calculating “YLD” CPN is greater than 0: RDV >0, PRC < 0 not satisfied CPN is 0: RDV > 0, PRC < 0 not satisfied 142 kError MessagesA When an error message appearsSee “Special Financial Calculation Error Messages” E-140 143 Math ERRORCause •Your input exceeds the allowable input range Action Stack ERROR •Try splitting the calculation into two or more parts Syntax ERROR •There is a problem with the format of the calculation you are performing • Make necessary corrections Insufficient MEM Error •Divide the calculation into smaller parts •Normally the input cursor appears as a straight vertical (I) or horizontal ( ) flashing line on the display screen When there are 10 or fewer bytes of input remaining in E-141 Argument ERROR 144 kBefore assuming malfunction of thecalculatorIf the above steps do not correct your problem, press the 4.Initialize all modes and settings by performing the following operation: (1)O19(CLR) (2)“All:EXE” (fc), then E (3)E(Yes) (4)A E-142 145 Reference148 Specifications149 6-2, Hon-machi 1-chomeShibuya-ku,Tokyo 151-8543,Japan
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