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Unformatted text preview: ba2plus.book Page i Thursday, April 8, 2004 1:48 PM BA II PLUS™ Calculator ba2plus.book Page ii Thursday, April 8, 2004 1:48 PM Important Information
Texas Instruments makes no warranty, either express or implied, including but not limited to any implied warranties of merchantability and fitness for a particular purpose, regarding any programs or book materials and makes such materials available solely on an “asis” basis. In no event shall Texas Instruments be liable to anyone for special, collateral, incidental, or consequential damages in connection with or arising out of the purchase or use of these materials, and the sole and exclusive liability of Texas Instruments, regardless of the form of action, shall not exceed the purchase price of this product. Moreover, Texas Instruments shall not be liable for any claim of any kind whatsoever against the use of these materials by any other party. USA FCC Information Concerning Radio Frequency Interference
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, you can try to correct the interference by one or more of the following measures: • • • • Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/television technician for help. Caution: Any changes or modifications to this equipment not expressly approved by Texas Instruments may void your authority to operate the equipment. © 2004 Texas Instruments Incorporated. ii ba2plus.book Page iii Thursday, April 8, 2004 1:48 PM Table of Contents
1 Overview of Calculator Operations..................................1
Turning On the Calculator ............................................................. 1 Turning Off the Calculator............................................................. 1 Selecting 2nd Functions ................................................................. 2 Reading the Display ....................................................................... 2 Setting Calculator Formats ........................................................... 4 Resetting the Calculator ................................................................ 6 Clearing Calculator Entries and Memories ................................... 6 Correcting Entry Errors................................................................... 7 Math Operations ............................................................................ 8 Memory Operations ..................................................................... 12 Calculations Using Constants....................................................... 14 Last Answer Feature..................................................................... 15 Using Worksheets: Tools for Financial Solutions ........................ 16 2 TimeValueofMoney and Amortization Worksheets...21
TVM and Amortization Worksheet Variables ............................. 22 Entering Cash Inflows and Outflows........................................... 25 Generating an Amortization Schedule ....................................... 25 Example: Computing Basic Loan Interest.................................... 26 Examples: Computing Basic Loan Payments ............................... 27 Examples: Computing Value in Savings ...................................... 28 Example: Computing Present Value in Annuities....................... 28 Example: Computing Perpetual Annuities.................................. 30 Example: Computing Present Value of Variable Cash Flows ..... 31 Example: Computing Present Value of a Lease With Residual Value........................................................................................ 33 Example: Computing Other Monthly Payments......................... 34 Example: Saving With Monthly Deposits .................................... 35 Example: Computing Amount to Borrow and Down Payment . 36 Example: Computing Regular Deposits for a Specified Future Amount ................................................................................... 37 Example: Computing Payments and Generating an Amortization Schedule........................................................... 38 Example: Computing Payment, Interest, and Loan Balance After a Specified Payment ..................................................... 39 3 Cash Flow Worksheet......................................................41
Cash Flow Worksheet Variables................................................... 41 Uneven and Grouped Cash Flows................................................ 42 Entering Cash Flows ..................................................................... 43 Deleting Cash Flows ..................................................................... 43 Table of Contents iii ba2plus.book Page iv Thursday, April 8, 2004 1:48 PM Inserting Cash Flows ..................................................................... 44 Computing Cash Flows ................................................................. 44 Example: Solving for Unequal Cash Flows .................................. 46 Example: Value of a Lease with Uneven Payments .................... 48 4 Bond Worksheet ............................................................. 51
Bond Worksheet Variables ........................................................... 52 Bond Worksheet Terminology ..................................................... 54 Entering Bond Data and Computing Results .............................. 54 Example: Computing Bond Price and Accrued Interest.............. 56 5 Depreciation Worksheet ................................................ 57
Depreciation Worksheet Variables .............................................. 57 Entering Data and Computing Results ........................................ 59 Example: Computing StraightLine Depreciation ....................... 61 6 Statistics Worksheet ....................................................... 63
Statistics Worksheet Variables ..................................................... 63 Regression Models ........................................................................ 65 Entering Statistical Data............................................................... 66 Computing Statistical Results....................................................... 67 7 Other Worksheets ........................................................... 69
Percent Change/Compound Interest Worksheet ........................ 69 Interest Conversion Worksheet.................................................... 72 Date Worksheet ............................................................................ 75 Profit Margin Worksheet ............................................................. 77 Breakeven Worksheet .................................................................. 78 Memory Worksheet ...................................................................... 80 Appendix — Reference Information ................................ 83
Formulas ........................................................................................ 83 Error Messages .............................................................................. 93 Accuracy Information ................................................................... 95 AOS™ (Algebraic Operating System) Calculations ..................... 96 Battery Information...................................................................... 96 In Case of Difficulty ...................................................................... 98 Texas Instruments Support and Service ....................................... 99 Texas Instruments (TI) Warranty Information ........................... 100 iv Table of Contents ba2plus.book Page 1 Thursday, April 8, 2004 1:48 PM 1
Overview of Calculator Operations
This chapter describes the basic operation of your BA II PLUS™ calculator, including how to: • • • • • • • Turn on and turn off the calculator Select second functions Read the display and set calculator formats Clear the calculator and correct entry errors Perform math and memory operations Use the Last Answer feature Use worksheets Turning On the Calculator
Press $. • If you turned off the calculator by pressing $, the calculator returns to the standardcalculator mode with a displayed value of zero. All worksheets and formats for numbers, angle units, dates, separators, and calculation method retain previous values and configurations. • If the Automatic Power Down™ (APD™) feature turned off the calculator, the calculator turns on exactly as you left it, saving display settings, stored memory, pending operations, and error conditions. Turning Off the Calculator
Press $. • • The displayed value and any error condition clear. Any unfinished standardcalculator operation and worksheet calculation in progress cancel. Overview of Calculator Operations 1 ba2plus.book Page 2 Thursday, April 8, 2004 1:48 PM • The Constant Memory™ feature retains all worksheet values and settings, including the contents of the 10 memories and all format settings. Automatic Power Down™ (APD™) Feature
To prolong battery life, the Automatic Power Down (APD) feature turns off the calculator automatically after about five minutes of inactivity. The next time you press $, the calculator turns on exactly as you left it, saving display settings and stored memory and any pending operations or error conditions. Selecting 2nd Functions
The primary function of a key is printed on the key itself. For example, the primary function of the $ key is to turn on or turn off the calculator. Most keys include a second function printed above the key. To select a second function, press & and the corresponding key. (When you press &, the 2nd indicator appears in the upper left corner of the display.) For example, pressing & U exits the selected worksheet and returns the calculator to the standardcalculator mode. Note: To cancel after pressing &, press & again. Reading the Display
The display shows the selected variable labels with values up to 10 digits. (The calculator displays values exceeding 10 digits in scientific notation.) 2 Overview of Calculator Operations ba2plus.book Page 3 Thursday, April 8, 2004 1:48 PM The indicators along the top of the display tell you which keys are active and offer information about the status of the calculator. Indicator
2nd INV HYP COMPUTE ENTER SET Meaning Press a key to select its second function. Press a key to select its inverse trigonometric function. Press a key to select its hyperbolic function. Press % to compute a value for the displayed variable. Press ! to assign the displayed value to the displayed variable. Press & V to change the setting of the displayed variable. Press " or # to display the previous or next variable in the worksheet. Note: To easily scroll up or down through a range of variables, press and hold # or ". #$ DEL INS BGN Press & W to delete a cash flow or statistical data point. Press & X to insert a cash flow or statistical data point. TVM calculations use beginningofperiod payments. When BGN is not displayed, TVM calculations use endofperiod payments (END). Angle values appear in radians. When RAD is not displayed, angle values appear and must be entered in degrees. The displayed value is entered in the selected worksheet. The indicator clears following a computation. The displayed value is computed in the selected worksheet. When a value changes and invalidates a computed value, the_indicator clears. RAD = The displayed variable is assigned the displayed value. The displayed value is negative. – Overview of Calculator Operations 3 ba2plus.book Page 4 Thursday, April 8, 2004 1:48 PM Setting Calculator Formats
You can change these calculator formats: To Select Number of decimal places Angle units Dates Number separators Calculation method Press Display Default
2 &  DEC 0–9 (Press 9 for floatingdecimal) # # # #
DEG (degrees) RAD (radians) US (mmddyyyy) Eur (ddmmyyyy) US (1,000.00 ) Eur (1.000,00) Chn (chain) AOSé (algebraic operating system) DEG US US Chn 1. 2. 3. To access format options, press & . The DEC indicator appears with the selected number of decimal places. To change the number of decimal places displayed, key in a value and press !. To access another calculator format, press # or " once for each format. For example, to access the angle unit format, press #. To access the numberseparator format, press " " "or # # #. 4. 5. To change the selected format, press & V. To change another calculator format, repeat step 3 and step 4. — or — To return to the standardcalculator mode, press & U. — or — To access a worksheet, press a worksheet key or key sequence. Choosing the Number of Decimal Places Displayed
The calculator stores numeric values internally to an accuracy of 13 digits, but you can specify the number of decimal places you want to display. The calculator displays up to 10 digits with the floatingdecimal option. Results exceeding 10 digits appear in scientific notation. 4 Overview of Calculator Operations ba2plus.book Page 5 Thursday, April 8, 2004 1:48 PM Changing the number of decimal places affects the display only. Except for amortization and depreciation results, the calculator does not round internal values. To round the internal value, use the round function. (See “Rounding & o” on page 11.) Note: All examples in this guidebook assume a setting of two decimal places. Other settings might show different results. Choosing the Angle Units
The angle unit value affects the display of results in trigonometric calculations. When you select radians, the RAD indicator appears in the upper right corner of the display. No indicator appears when you select the default setting of degrees. Using Dates
The calculator uses dates with the Bond and Date worksheets and the French depreciation methods. To enter dates, use this convention: mm.ddyy (US) or dd.mmyy (European). After you key in the date, press !. Choosing Calculation Methods
When you choose the chain (Chn) calculation method, the calculator solves problems in the order that you enter them. (Most financial calculators use Chn.) For example, when you enter 3 H 2 < 4 N, the Chn answer is 20 (3 + 2 = 5, 5 * 4 = 20). Using AOSé (algebraic operating system), the calculator solves problems according to the standard rules of algebraic hierarchy, computing multiplication and division operations before addition and subtraction operations. (Most scientific calculators use AOS.) For example, when you enter 3 H 2 < 4 N, the AOS answer is 11 (2 Q 4 = 8; 3 + 8 = 11). Resetting Default Values
To reset default values for all of the calculator formats, press & z with one of the formats displayed. Overview of Calculator Operations 5 ba2plus.book Page 6 Thursday, April 8, 2004 1:48 PM Resetting the Calculator
Resetting the calculator: • • • Clears the display, all 10 memories, any unfinished calculations, and all worksheet data. Restores all default settings Returns operation to the standardcalculator mode Because the calculator includes alternative methods that let you clear data selectively, use reset carefully to avoid losing data needlessly. (See “Clearing Calculator Entries and Memories” on page 6.) For example, you might reset the calculator before using it for the first time, when starting a new calculation, or when having difficulty operating the calculator and other possible solutions do not work. (See “In Case of Difficulty” on page 98.) Pressing & } !
1. Press & }. The RST ? and ENTER indicators appear. Note: To cancel reset, press & U. 0.00 appears. 2. Press !. RST and 0.00 appear, confirming that the calculator is reset. Note: If an error condition exists, press P to clear the display before attempting to reset.
Performing a Hard Reset You can also reset the calculator by gently inserting a pointed object (such as an unfolded paper clip or similar object) in the hole marked RESET in back of the calculator. Clearing Calculator Entries and Memories
Note: To clear variables selectively, see the specific worksheet chapters in this guidebook. To clear Press One character at a time, starting with the last digit * keyed in 6 Overview of Calculator Operations ba2plus.book Page 7 Thursday, April 8, 2004 1:48 PM To clear An incorrect entry, error condition, or error message The prompted worksheet and reset default values Calculator format settings and reset default values • • • Out of the prompted worksheet and return to standardcalculator mode All pending operations in standardcalculator mode In a prompted worksheet, the variable value keyed in but not entered (the previous value appears) Any calculation started but not completed Press P &z & &z &U PP • TVM worksheet variables and reset default values One of the 10 memories (without affecting the others) &U &^ Q D and a memory number key (0–9) Correcting Entry Errors
You can correct an entry without clearing a calculation, if you make the correction before pressing an operation key (for example, H or 4). • • To clear the last digit displayed, press *. To clear the entire number displayed, press P. Note: Pressing P after you press an operation key clears the calculation in progress.
Example: You mean to calculate 3 Q 1234.56 but instead enter 1234.86. To Begin the expression. Enter a number. Erase the entry error. Press
3< 1234.86 Display
3.00 1,234.86 1,234. ** Overview of Calculator Operations 7 ba2plus.book Page 8 Thursday, April 8, 2004 1:48 PM To Key in the correct number. Compute the result. Press
56 Display
1,234.56 3,703.68 N Math Operations
When you select the chain (Chn) calculation method, the calculator evaluates mathematical expressions (for example, 3 + 2 Q 4) in the order that you enter them. Examples of Math Operations
These operations require you to press N to complete. To Add 6 + 4 Subtract 6 N 4 Multiply 6 Q 4 Divide 6 P 4 Find universal power: 3
1.25 Press
6H4N 6B4N 6<4N 664N 3 ; 1.25 N 7 <9 3 H 5 :N 453 < 4 2 N 14 6 25 2 N 498 H 7 2 Display
10.00 2.00 24.00 1.50 3.95 56.00 18.12 56.00 34.86 532.86 7.00 62.99 2,598,960.00 336.00 Use parentheses: 7 Q (3 + 5) Find percent: 4% of $453 Find percent ratio: 14 to 25 Find price with percent addon: $498 + 7% sales tax Find price with percent discount: $69.99 N 10% Find number of combinations where: n = 52, r = 5 N
69.99 B 10 2 N
52 & s 5 N Find number of permutations where: 8 & m 3 N n = 8, r = 3 These operations do not require you to press N to complete. To Square 6.3
2 Press
6.3 4 Display
39.69 8 Overview of Calculator Operations ba2plus.book Page 9 Thursday, April 8, 2004 1:48 PM To Find square root: 15.5 Press
15.5 3 3.2 5 5 &g 203.45 > .69315 & i 2 6 3 N&o Display
3.94 0.31 120.00 5.32 2.00 0.67 0.86 0.86 0.20 0.50 4.01 11.54 120.00 75.96 0.52 1.13 0.46 2.31 2.29 0.55 Find reciprocal: 1/3.2 Find factorial: 5! Find natural logarithm: ln 203.45 Find natural antilogarithm: e
.69315 Round 2 P 3 to the set decimal format Generate random number* Store seed value Find sine:** sin(11.54°) Find cosine:** cos(120°) Find tangent:** tan(76°) Find arcsine:** sin (.2) Find arccosine:** cos (.5) Find arctangent:** tan (4) Find hyperbolic sine: sinh(.5) Find hyperbolic cosine: cosh(.5) Find hyperbolic tangent: tanh(.5) Find hyperbolic arcsine: sinh (5) Find hyperbolic arccosine: cosh (5) Find hyperbolic arctangent: tanh (.5) *
1 1 1 1 1 1 &a D&a
11.54 & d 120 & e 76 & f .2 8 d .5 S 8 e 4 8f .5 & c d .5 & c e .5 & c f 5 &c8d 5 &c8e .5 & c 8 f The random number you generate might be different. ** Angles can be computed in degrees or radians. Examples show angles in degrees. (See “Choosing the Angle Units” on page 5.) Universal Power ;
Press ; to raise the displayed positive number to any power (for example, 25 or 2(1/3)). Overview of Calculator Operations 9 ba2plus.book Page 10 Thursday, April 8, 2004 1:48 PM Note: Because the reciprocal of an even number (such as, 1/2, 1/4, 1/6) is a complex number, you can only raise a negative number to an integer power or the reciprocal of an odd number. Parentheses 9 :
Use parentheses to control the order in which the calculator evaluates a numeric expression in division, multiplication, powers, roots, and logarithm calculations. The calculator includes up to 15 levels of parentheses and up to 8 pending operations. Note: You do not have to press : for expressions ending in a series of closed parentheses. Pressing N closes parentheses automatically, evaluates the expression, and displays the final result. To view intermediate results, press : once for each open parenthesis. Factorial & g
The number for which you compute a factorial must be a positive integer less than or equal to 69. Random Numbers & a
The calculator generates a random real number between zero and one (0<x<1) from a uniform distribution. You can repeat a sequence of random numbers by storing a seed value in the random number generator. Seed values help you recreate experiments by generating the same series of random numbers. To store a seed value, key in an integer greater than zero and press D & a. Combinations & s
The calculator computes the number of combinations of n items taken r at a time. Both the n and r variables must be greater than or equal to 0. n! n Cr = ( n – r )! × r!
Permutations & m
The calculator computes the number of permutations of n items taken r at a time. Both the n and r variables must be greater than or equal to 0. n! n Pr = ( n – r )! 10 Overview of Calculator Operations ba2plus.book Page 11 Thursday, April 8, 2004 1:48 PM Rounding & o
The calculator computes using the rounded, displayed form of a number instead of the internally stored value. For example, working in the Bond worksheet, you might want to round a computed selling price to the nearest penny (two decimal places) before continuing your calculation. Note: The calculator stores values to an accuracy of up to 13 digits. The decimal format setting rounds the displayed value but not the unrounded, internally stored value. (See “Choosing the Number of Decimal Places Displayed” on page 4.) Scientific Notation ;
When you compute a value in the standarddecimal format that is either too large or small to be displayed, the calculator displays it in scientific notation, that is, a base value (or mantissa), followed by a blank space, followed by an exponent. With AOS™ selected, you can press ; to enter a number in scientific notation. (See “Choosing Calculation Methods” on page 5.) For example, to enter 3 Q 10 3, key in 3 < 10 ; 3. Overview of Calculator Operations 11 ba2plus.book Page 12 Thursday, April 8, 2004 1:48 PM Memory Operations
You can store values in any of 10 memories using the standard calculator keys. Note: You can also use the Memory worksheet. (See “Memory Worksheet” on page 80.) • • You can store in memory any numeric value within the range of the calculator. To access a memory M0 through M9, press a numeric key (0 through 9). Clearing Memory
Clearing memory before you begin a new calculation is a critical step in avoiding errors. • • To clear an individual memory, store a zero value in it. To clear all 10 calculator memories, press & { & z. Storing to Memory
To store a displayed value to memory, press D and a numeric key (0–9). • • The displayed value replaces any previous value stored in the memory. The Constant Memory feature retains all stored values when you turn off the calculator. Recalling From Memory
To recall a number stored in memory, press J and a numeric key (0–9). Note: The recalled number remains in memory. Memory Examples
To Clear memory 4 (by storing a zero value in it) Store 14.95 in memory 3 (M3) Recall a value from memory 7 (M7) Press
0D4 14.95 D 3 J7 Memory Arithmetic
Using memory arithmetic, you can perform a calculation with a stored value and store the result with a single operation. 12 Overview of Calculator Operations ba2plus.book Page 13 Thursday, April 8, 2004 1:48 PM • • Memory arithmetic changes only the value in the affected memory and not the displayed value. Memory arithmetic does not complete any calculation in progress. The table lists the available memory arithmetic functions. In each case, the specified memory stores the result. To Add the displayed value to the value stored in memory 9 (M9). Subtract the displayed value from the value stored in memory 3 (M3). Multiply the value in memory 0 (M0) by the displayed value. Divide the value in memory 5 (M5) by the displayed value. Raise the value in memory 4 (M4) to the power of the displayed value. Press DH 9 DB 3 D< 0 D6 5 D; 4 Overview of Calculator Operations 13 ba2plus.book Page 14 Thursday, April 8, 2004 1:48 PM Calculations Using Constants
To store a constant for use in repetitive calculations, enter a number and an operation, and then press & `. To use the stored constant, key in a value and press N. Note: Pressing a key other than a number or N clears the constant. Example: Multiply 3, 7, and 45 by 8
To Clear the calculator. Enter the value for the first calculation. Enter the operation and a constant value. Store the operation and value, and then calculate. Calculate 7 Q 8. Compute 45 Q 8. Press &U
3 Display
0.00 3 8 24.00 56.00 360.00 <8 &` N
7N 45 N Keystrokes for Constant Calculations
This table shows how to create a constant for various operations. To* Add c to each subsequent entry Subtract c from each subsequent entry Multiply each subsequent entry by c Divide each subsequent entry by c Raise each subsequent entry to the power of c Add c% of each subsequent entry to that entry Subtract c% of each subsequent entry from the entry *The letter c denotes the constant value. **Repeat constant calculations with n N.
14 Overview of Calculator Operations Press** n H&` c N n B&` c N n <&` c N n 6&` c N n ;&` c N n H&` c 2N n B&` c 2N ba2plus.book Page 15 Thursday, April 8, 2004 1:48 PM Last Answer Feature
Use the Last Answer (ANS) feature with problems that call repeatedly for the same value or to copy a value: • • • • From one place to another within the same worksheet From one worksheet to another From a worksheet to the standardcalculator mode From the standardcalculator mode to a worksheet To display the last answer computed, press & x. Note: The calculator changes the value of the last answer whenever it calculates a value automatically or whenever you: • • • Press ! to enter a value. Press % to compute a value. Press N to complete a calculation. Example: Using the Last Answer in a Calculation
To Key in and complete a calculation Key in a new calculation Recall the last answer Complete the calculation Press
3H1N 2; Display 4.00 2.00 4.00 16.00 &x N Overview of Calculator Operations 15 ba2plus.book Page 16 Thursday, April 8, 2004 1:48 PM Using Worksheets: Tools for Financial Solutions
Thecalculator contains worksheets with embedded formulas to solve specific problems. You apply settings or assign known values to worksheet variables and then compute the unknown value. Changing the values lets you ask what if questions and compare results. Except for TVM variables, accessed in the standardcalculator mode, all variables are prompted. For example, to assign values to amortization variables, you must first press & \ to access the Amortization worksheet. Each worksheet is independent of the others: operations in a worksheet do not affect variables in other worksheets. When you exit a worksheet or turn off the calculator, the calculator retains all worksheet data. To select TVM worksheet (Chapter 2) Function Analyzes equal cash flows, for example, annuities, loans, mortgages, leases, and savings Press ,, , ., /, 0, or &[ &\ Amortization worksheet Performs amortization (Chapter 2) calculations and generates an amortization schedule Cash Flow worksheet (Chapter 3) Bond worksheet (Chapter 4) Depreciation worksheet (Chapter 5) Statistics worksheet (Chapter 6) Percent Change/Compound Interest worksheet (Chapter 7) Analyzes unequal cash flows by & ' calculating net present value and internal rate of return Computes bond price and yield & l to maturity or call Generates a depreciation schedule using one of six depreciation methods Analyzes statistics on one or twovariable data using four regression analysis options Computes percent change, compound interest, and costsell markup &p &k &q 16 Overview of Calculator Operations ba2plus.book Page 17 Thursday, April 8, 2004 1:48 PM To select Interest Conversion worksheet (Chapter 7) Date worksheet (Chapter 7) Function Converts interest rates between nominal rate (or annual percentage rate) and annual effective rate Computes number of days between two dates, or date/day of the week a specified number of days is from a given date Press &v &u Profit Margin worksheet Computes cost, selling price, (Chapter 7) and profit margin Breakeven worksheet (Chapter 7) Memory worksheet (Chapter 7) Analyzes relationship between fixed cost, variable cost, price, profit, and quantity &w &r Accesses storage area for up to & { 10 values Accessing the TVM Worksheet Variables
• • To assign values to the TVM worksheet variables, use the five TVM keys (,, , ., /, 0). To access other TVM worksheet functions, press the & key, and then press a TVM function key (xP/Y, P/Y, BGN). (See “TVM and Amortization Worksheet Variables” on page 22.) Note: You can assign values to TVM variables while in a prompted worksheet, but you must return to the standardcalculator mode to calculate TVM values or clear the TVM worksheet. Accessing PromptedWorksheet Variables
After you access a worksheet, press # or " to select variables. For example, press & \ to access the Amortization worksheet, and then press # or " to select the amortization variables (P1, P2, BAL, PRN, INT). (See “TVM and Amortization Worksheet Variables” on page 22.) Indicators prompt you to select settings, enter values, or compute results. For example, the i# $ indicators remind you to press # or " to select other variables. (See “Reading the Display” on page 2.) To return to the standardcalculator mode, press & U.
Overview of Calculator Operations 17 ba2plus.book Page 18 Thursday, April 8, 2004 1:48 PM Types of Worksheet Variables
• • • • • Enteronly Computeonly Automaticcompute Enterorcompute Settings Note: The = sign displayed between the variable label and value indicates that the variable is assigned the value. EnterOnly Variables
Values for enteronly variables must be entered, cannot be computed, and are often limited to a specified range, for example, P/Y and C/Y. The value for an enteronly variable can be: • • • • Entered directly from the keyboard. The result of a math calculation. Recalled from memory. Obtained from another worksheet using the last answer feature. When you access an enteronly variable, the calculator displays the variable label and ENTER indicator. The ENTER indicator reminds you to press ! after keying in a value to assign the value to the variable. After you press !, the indicator confirms that the value is assigned. ComputeOnly Variables
You cannot enter values manually for computeonly variables, for example, net present value (NPV). To compute a value, display a computeonly variable and press %. The calculator computes and displays the value based on the values of other variables. When you display a computeonly variable, the COMPUTE indicator reminds you to press % to compute its value. After you press %, the indicator confirms that the displayed value has been computed. AutomaticCompute Variables
When you press # or " to display an automaticcompute variable (for example, the Amortization worksheet INT variable), the calculator computes and displays the value automatically without you having to press %. EnterorCompute Variables in the TVM Worksheet
You can either enter or compute values for the TVM worksheet variables (N, I/Y, PV, PMT, and FV). 18 Overview of Calculator Operations ba2plus.book Page 19 Thursday, April 8, 2004 1:48 PM Note: Although you do not have to be in the standardcalculator mode to assign values to these variables, you must be in the standardcalculator mode to compute their values. • • To assign the value of a TVM variable, key in a number and press a variable key. To compute the value of a TVM variable, press %, and then press the variable key. The calculator computes and displays the value based on the values of other variables. EnterorCompute Variables in Prompted Worksheets
You can either enter or compute values for some prompted worksheet variables (for example, the Bond worksheet YLD and PRI variables). When you select an enterorcompute variable, the calculator displays the variable label with the ENTER and COMPUTE indicators. • • The ENTER indicator prompts you to press ! to assign the keyedin value to the displayed variable. The COMPUTE indicator prompts you to press % to compute a value for the variable. Selecting Worksheet Settings
Many prompted worksheets contain variables consisting of two or more options, or settings (for example, the Date worksheet ACT/360 variable). When you select variables with settings, the calculator displays the SET indicator and the current setting. To scroll through the settings of a variable, press & V once for each setting. Display Indicators
• • • The indicator confirms that the calculator entered the displayed value in the worksheet. The indicator confirms that the calculator computed the displayed value. When a change to the worksheet invalidates either entered or computed values, the and indicators disappear. Overview of Calculator Operations 19 ba2plus.book Page 20 Thursday, April 8, 2004 1:48 PM 20 Overview of Calculator Operations ba2plus.book Page 21 Thursday, April 8, 2004 1:48 PM 2
TimeValueofMoney and Amortization Worksheets
Use the TimeValueofMoney (TVM) variables to solve problems with equal and regular cash flows that are either all inflows or all outflows (for example, annuities, loans, mortgages, leases, and savings). For cashflow problems with unequal cash flows, use the Cash Flow worksheet. (See “Cash Flow Worksheet” on page 41.) After solving a TVM problem, you can use the Amortization worksheet to generate an amortization schedule. • • To access a TVM variable, press a TVM key (,, , ., /, or 0). To access the prompted Amortization worksheet, press & \. TimeValueofMoney and Amortization Worksheets 21 ba2plus.book Page 22 Thursday, April 8, 2004 1:48 PM TVM and Amortization Worksheet Variables
Variable Number of periods Interest rate per year Present value Payment Future value Key , . / 0 Display Type of Variable
N I/Y PV PMT FV P/Y C/Y END BGN P1 P2 BAL PRN INT Enterorcompute Enterorcompute Enterorcompute Enterorcompute Enterorcompute Enteronly Enteronly Setting Setting Enteronly Enteronly Autocompute Autocompute Autocompute Number of payments per year & [ Number of compounding periods per year Endofperiod payments Beginningofperiod payments Starting payment Ending payment Balance Principal paid Interest paid # &] &V &\ # # # # Note: This guidebook categorizes calculator variables by the method of entry. (See “Types of Worksheet Variables” on page 18.) Using the TVM and Amortization Variables
Because the calculator stores values assigned to the TVM variables until you clear or change them, you should not have to perform all steps each time you work a problem. • • To assign a value to a TVM variable, key in a number and press a TVM key (,, , ., /, 0). To change the number of payments (P/Y), press & [, key in a number, and press !. To change the compounding periods (C/Y), press & [ #, key in a number, and press !. To change the payment period (END/BGN), press & ], and then press & V. To compute a value for the unknown variable, press %, and then press the key for the unknown variable.
TimeValueofMoney and Amortization Worksheets • • 22 ba2plus.book Page 23 Thursday, April 8, 2004 1:48 PM • To generate an amortization schedule, press & \, enter the first and last payment number in the range (P1 and P2), and press " or # to compute values for each variable (BAL, PRN, and INT). Resetting the TVM and Amortization Worksheet Variables
• To reset all calculator variables and formats to default values (including TVM and amortization variables), press & } !: Default 0 0 0 0 0 1 1 Variable
END/BGN P1 P2 BAL PRN INT Variable
N I/Y PV PMT FV P/Y C/Y Default
END 1 1 0 0 0 NA NA • • • To reset only the TVM variables (N, I/Y, PV, PMT, FV) to default values, press & ^. To reset P/Y and C/Y to default values, press & [ & z. To reset the Amortization worksheet variables (P1, P2, BAL, PRN, INT) to default values, press & z while in the Amortization worksheet. To reset END/BGN to the default value, press & ] & z. • Clearing the Unused Variable
For problems using only four of the five TVM variables, enter a value of zero for the unused variable. For example, to determine the present value (PV) of a known future value (FV) with a known interest rate (I/Y) and no payments, enter 0 and press PMT. Entering Positive and Negative Values for Outflows and Inflows
Enter negative values for outflows (cash paid out) and positive values for inflows (cash received). Note: To enter a negative value, press S after entering the number. To change a negative value to positive, press S. TimeValueofMoney and Amortization Worksheets 23 ba2plus.book Page 24 Thursday, April 8, 2004 1:48 PM Entering Values for I/Y, P/Y, and C/Y
• Enter I/Y as the nominal interest rate. The TVM worksheet automatically converts I/Y to a per period rate based on the values of P/Y and C/Y. Entering a value for P/Y automatically enters the same value for C/Y. (You can change C/Y.) • Specifying Payments Due With Annuities
Use END/BGN to specify whether the transaction is an ordinary annuity or an annuity due. • • Set END for ordinary annuities, in which payments occur at the end of each payment period. (This category includes most loans.) Set BGN for annuities due, in which payments occur at the beginning of each payment period. (This category includes most leases.) Note: When you select beginningofperiod payments, the BGN indicator appears. (No indicator appears for END payments.) Updating P1 and P2
To update P1 and P2 for a next range of payments, press % with P1 or P2 displayed. Different Values for BAL and FV
The computed value for BAL following a specified number of payments might be different than the computed value for FV following the same number of payments. • When solving for BAL, PRN, and INT, the calculator uses the PMT value rounded to the number of decimal places specified by the decimal format. When solving for FV, the calculator uses the unrounded value for
PMT. • Entering, Recalling, and Computing TVM Values
• • To enter a TVM value, key in the value and store it by pressing a TVM key (,, , ., /, 0). To display a stored TVM value, press J and a TVM key. You can enter or recall a value for any of the five TVM variables (N, I/Y, PV, PMT, or FV) in either the standard calculator mode or a worksheet mode. The information displayed depends on which mode is selected. • In standard calculator mode, the calculator displays the variable label, the = sign, and the value entered or recalled.
TimeValueofMoney and Amortization Worksheets 24 ba2plus.book Page 25 Thursday, April 8, 2004 1:48 PM • In worksheet modes the calculator displays only the value you enter or recall, although any variable label previously displayed remains displayed. Note: You can tell that the displayed value is not assigned to the displayed variable, because the = indicator is not displayed. To compute a TVM value, press % and a TVM key in standardcalculator mode. Using [xP/Y] to Calculate a Value for N
1. 2. Key in the number of years, and then press & Z to multiply by the stored P/Y value. The total number of payments appears. To assign the displayed value to N for a TVM calculation, press ,. Entering Cash Inflows and Outflows
The calculator treats cash received (inflows) as a positive value and cash invested (outflows) as a negative value. • • You must enter cash inflows as positive values and cash outflows as negative values. The calculator displays computed inflows as positive values and computed outflows as negative values. Generating an Amortization Schedule
The Amortization worksheet uses TVM values to compute an amortization schedule either manually or automatically. Generating an Amortization Schedule Manually
1. 2. 3. 4. 5. Press & \. The current P1 value appears. To specify the first in a range of payments, key in a value for P1 and press !. Press #. The current P2 value appears. To specify the last payment in the range, key in a value for P2 and press !. Press # to display each of the automatically computed values: • • •
BAL— the remaining balance after payment P2 PRN— the principal INT— the interest paid over the specified range TimeValueofMoney and Amortization Worksheets 25 ba2plus.book Page 26 Thursday, April 8, 2004 1:48 PM 6. Press & \. — or — If INT is displayed, press # to display P1 again. To generate the amortization schedule, repeat steps 2 through 5 for each range of payments. 7. Generating an Amortization Schedule Automatically
After entering the initial values for P1 and P2, you can compute an amortization schedule automatically. 1. Press & \. — or — If INT is displayed, press # to display the current P1 value. Press %. Both P1 and P2 update automatically to represent the next range of payments. The calculator computes the next range of payments using the same number of periods used with the previous range of payments. For example, if the previous range was 1 through 12 (12 payments), pressing % updates the range to 13 through 24 (12 payments). 3. Press # to display P2. • • If you press % with P1 displayed, a new value for P2 will be displayed automatically. (You can still enter a new value for P2.) If you did not press % with P1 displayed, you can press % with P2 displayed to enter values for both P1 and P2 in the next range of payments. 2. 4. 5. Press # to display each of the automatically computed values for
BAL, PRN, and INT in the next range of payments. Repeat steps 1 through 4 until the schedule is complete. Example: Computing Basic Loan Interest
If you make a monthly payment of $425.84 on a 30year mortgage for $75,000, what is the interest rate on your mortgage? To Set payments per year to 12. Press & [ 12 !
P/Y= Display
12.00 0.00 N= 360.00 Return to standardcalculator & U mode. Enter number of payments 30 & Z , using the payment multiplier. 26 TimeValueofMoney and Amortization Worksheets ba2plus.book Page 27 Thursday, April 8, 2004 1:48 PM To Enter loan amount. Enter payment amount. Compute interest rate. Press
75000 . 425.84 S / PV= PMT= I/Y= Display
75,000.00 õ 425.84 5.50 % Answer: The interest rate is 5.5% per year. Examples: Computing Basic Loan Payments
These examples show you how to compute basic loan payments on a $75,000 mortgage at 5.5% for 30 years. Note: After you complete the first example, you should not have to reenter the values for loan amount and interest rate. The calculator saves the values you enter for later use. Computing Monthly Payments
To Set payments per year to 12. Press & [ 12 !
P/Y= Display
12.00 0.00 N= I/Y= PV= PMT= 360.00 5.50 75,000.00 õ 425.84 Return to standardcalculator & U mode. Enter number of payments using payment multiplier. Enter interest rate. Enter loan amount. Compute payment.
30 & Z , 5.5 75000 . %/ Answer: The monthly payments are $425.84. Computing Quarterly Payments
Note: The calculator automatically sets the number of compounding periods (C/Y) to equal the number of payment periods (P/Y). To Set payments per year to 4. Return to standardcalculator mode. Enter number of payments using payment multiplier. Press &[ 4 ! &U
30 & Z , N= P/Y= Display
4.00 0.00 120.00 TimeValueofMoney and Amortization Worksheets 27 ba2plus.book Page 28 Thursday, April 8, 2004 1:48 PM To Compute payment. Press %/
PMT= Display
1,279.82 Answer: The quarterly payments are $1,279.82. Examples: Computing Value in Savings
These examples show you how to compute the future and present values of a savings account paying 0.5% compounded at the end of each year with a 20year time frame. Computing Future Value Example: If you open the account with $5,000, how much will you have
after 20 years? To Set all variables to defaults. Enter number of payments. Enter interest rate. Enter beginning balance. Compute future value. Press &} !
20 , .5 5000 S . RST N= I/Y= PV= FV= Display
0.00 20.00 0.50 5,000.00 5,524.48 %0 Answer: The account will be worth $5,524.48 after 20 years. Computing Present Value Example: How much money must you deposit to have $10,000 in 20
years? To Enter final balance. Compute present value. Press
10000 0 FV= PV= Display
10,000.00 9,050.63 %. Answer: You must deposit $9,050.63. Example: Computing Present Value in Annuities
The Furros Company purchased equipment providing an annual savings of $20,000 over 10 years. Assuming an annual discount rate of 10%, what is the present value of the savings using an ordinary annuity and an annuity due? 28 TimeValueofMoney and Amortization Worksheets ba2plus.book Page 29 Thursday, April 8, 2004 1:48 PM Cost Savings for a PresentValue Ordinary Annuity Cost Savings for a PresentValue Annuity Due in a Leasing Agreement To Set all variables to defaults. Enter number of payments. Enter interest rate per payment period. Enter payment. Compute present value (ordinary annuity). Set beginningofperiod payments. Return to calculator mode. Press &}!
10 , 10 20000 S / RST N= I/Y= PMT= PV= BGN Display
0.00 10.00 10.00 20,000.00 122,891.34 %. & ]& V &U 0.00 TimeValueofMoney and Amortization Worksheets 29 ba2plus.book Page 30 Thursday, April 8, 2004 1:48 PM To Compute present value (annuity due). Press %.
PV= Display
135,180.48 Answer: The present value of the savings is $122,891.34 with an ordinary annuity and $135,180.48 with an annuity due. Example: Computing Perpetual Annuities
To replace bricks in their highway system, the Land of Oz has issued perpetual bonds paying $110 per $1000 bond. What price should you pay for the bonds to earn 15% annually? To Calculate the present value for a perpetual ordinary annuity. Calculate the present value for a perpetual annuity due. Press
110 6 15 2 N Display
733.33 843.33 H 110 N Answer: You should pay $733.33 for a perpetual ordinary annuity and $843.33 for a perpetual annuity due. A perpetual annuity can be an ordinary annuity or an annuity due consisting of equal payments continuing indefinitely (for example, a preferred stock yielding a constant dollar dividend). Perpetual ordinary annuity 30 TimeValueofMoney and Amortization Worksheets ba2plus.book Page 31 Thursday, April 8, 2004 1:48 PM Perpetual annuity due Because the term (1 + I/Y / 100) N in the present value annuity equations approaches zero as N increases, you can use these equations to solve for the present value of a perpetual annuity: • Perpetual ordinary annuity PMT PV = ( I/Y ) ÷ 100
• Perpetual annuity due PMT PV = PMT + ( I/Y ) ⁄ 100 ) Example: Computing Present Value of Variable Cash Flows
The ABC Company purchased a machine that will save these endofyear amounts: Year Amount 1 $5000 2 $7000 3 $8000 4 $10000 Given a 10% discount rate, does the present value of the cash flows exceed the original cost of $23,000? TimeValueofMoney and Amortization Worksheets 31 ba2plus.book Page 32 Thursday, April 8, 2004 1:48 PM To Set all variables to defaults. Enter interest rate per cash flow period. Enter 1st cash flow. Enter 1st cash flow period. Press &} !
10 5000 S 0 1, RST I/Y= FV= N= PV= Display
0.00 10.00 5,000.00 1.00 4,545.45 4,545.45 FV= N= PV= 7,000.00 2.00 5,785.12 5,785.12 FV= N= PV= 8,000.00 3.00 6,010.52 6,010.52 FV= N= PV= 10,000.00 4.00 6,830.13 Compute present value of 1st cash % . flow. Store in M1. Enter 2nd cash flow. Enter 2nd cash flow period. Compute present value of 2nd cash flow. Sum to memory. Enter 3rd cash flow. Enter period number. Compute present value of 3rd cash flow. Sum to memory. Enter 4th cash flow. Enter period number. Compute present value of 4th cash flow. D1
7000 S 0 2, %. DH 1
8000 S 0 3, %. DH 1
10000 S 0 4, %. 32 TimeValueofMoney and Amortization Worksheets ba2plus.book Page 33 Thursday, April 8, 2004 1:48 PM To Sum to memory. Recall total present value. Subtract original cost. Press DH 1 J1 B 23000 N Display
6,830.13 23,171.23 171.23 Answer: The present value of the cash flows is $23,171.23, which exceeds the machine’s cost by $171.23. This is a profitable investment. Note: Although variable cash flow payments are not equal (unlike annuity payments), you can solve for the present value by treating the cash flows as a series of compound interest payments. The present value of variable cash flows is the value of cash flows occurring at the end of each payment period discounted back to the beginning of the first cash flow period (time zero). Example: Computing Present Value of a Lease With Residual Value
The Peach Bright Company wants to purchase a machine currently leased from your company. You offer to sell it for the present value of the lease discounted at an annual interest rate of 22% compounded monthly. The machine has a residual value of $6500 with 46 monthly payments of $1200 remaining on the lease. If the payments are due at the beginning of each month, how much should you charge for the machine? The total value of the machine is the present value of the residual value plus the present value of the lease payments. To Set all variables to defaults. Set beginningofperiod payments. Press &}! &] &V
RST BGN Display
0.00 TimeValueofMoney and Amortization Worksheets 33 ba2plus.book Page 34 Thursday, April 8, 2004 1:48 PM To Set all variables to defaults. Return to standardcalculator mode. Enter number of payments. Calculate and enter periodic interest rate. Enter residual value of asset. Press &}! &U
46 , 22 6 12 N 6500 S 0 N= I/Y= FV= PV= PMT= PV= RST Display
0.00 0.00 46.00 1.83 6,500.00 2,818.22 1,200.00 40,573.18 Compute residual present value. % . Enter lease payment amount. Compute present value of lease payments. machine.
1200 S / %. Answer: Peach Bright should pay your company $40,573.18 for the Example: Computing Other Monthly Payments
If you finance the purchase of a new desk and chair for $525 at 20% APR compounded monthly for two years, how much is the monthly payment? To Set all variables to defaults. Set payments per year to 12. Return to standardcalculator mode Press &}! & [ 12 ! &U
N= RST P/Y= Display
0.00 12.00 0.00 24.00 Enter number of payments using 2 & Z , payment multiplier.
34 TimeValueofMoney and Amortization Worksheets ba2plus.book Page 35 Thursday, April 8, 2004 1:48 PM To Enter interest rate. Enter loan amount. Compute payment. Press
20 525 . I/Y= PV= PMT= Display
20.00 525.00 26.72 %/ Answer: Your monthly payment is $26.72. Example: Saving With Monthly Deposits
Note: Accounts with payments made at the beginning of the period are referred to as annuity due accounts. Interest begins accumulating earlier and produces slightly higher yields. You invest $200 at the beginning of each month in a retirement plan. What will the account balance be at the end of 20 years, if the fund earns an annual interest of 7.5 % compounded monthly, assuming beginningofperiod payments? To Set all variables to defaults. Set payments per year to 12. Set beginningofperiod payments. Return to standardcalculator mode. Enter number of payments using payment multiplier. Enter interest rate. Enter amount of payment. Press &}! & [ 12 ! &]&V &U
20 & Z , 7.5 200 S / N= I/Y= PMT= RST P/Y= BGN Display
0.00 12.00 0.00 240.00 7.50 200.00 TimeValueofMoney and Amortization Worksheets 35 ba2plus.book Page 36 Thursday, April 8, 2004 1:48 PM To Compute future value. Press %0
FV= Display
111,438.31 Answer: Depositing $200 at the beginning of each month for 20 years
results in a future amount of $111,438.31. Example: Computing Amount to Borrow and Down Payment
You consider buying a car for $15,100. The finance company charges 7.5% APR compounded monthly on a 48month loan. If you can afford a monthly payment of $325, how much can you borrow? How much do you need for a down payment? To Set all variables to defaults. Set payments per year to 12. Return to standardcalculator mode Enter number of payments using payment multiplier. Enter interest rate. Enter payment. Compute loan amount. Compute down payment Press & } ! RST & [ 12 ! &U
4 &Z, 7.5 325 S / N= I/Y= PMT= PV= P/Y= Display
0.00 12.00 0.00 48.00 7.50 325.00 13,441.47 1,658.53 %. H 15,100 S N Answer: You can borrow $13,441.47 with a down payment of $1,658.53. 36 TimeValueofMoney and Amortization Worksheets ba2plus.book Page 37 Thursday, April 8, 2004 1:48 PM Example: Computing Regular Deposits for a Specified Future Amount
You plan to open a savings account and deposit the same amount of money at the beginning of each month. In 10 years, you want to have $25,000 in the account. How much should you deposit if the annual interest rate is 0.5% with quarterly compounding? Note: Because C/Y (compounding periods per year) is automatically set to equal P/Y (payments per year), you must change the C/Y value. To Set all variables to defaults. Set payments per year to 12. Set compounding periods to 4. Set beginningofperiod payments. Return to standardcalculator mode. Press &}! & [ 12 ! #4! &] &V &U
N= I/Y= FV= PMT= RST P/Y= C/Y= BGN 0.00 120.00 0.50 25,000.00 203.13 Display
0.00 12.00 4.00 Enter number of deposits using 10 & Z , payment multiplier. Enter interest rate. Enter future value. Compute deposit amount.
.5 25,000 0 %/ Answer: You must make monthly deposits of $203.13. TimeValueofMoney and Amortization Worksheets 37 ba2plus.book Page 38 Thursday, April 8, 2004 1:48 PM Example: Computing Payments and Generating an Amortization Schedule
This example shows you how to use the TVM and Amortization worksheets to calculate the monthly payments on a 30year loan and generate an amortization schedule for the first three years of the loan. Computing Mortgage Payments
Calculate the monthly payment with a loan amount of $120,000 and 6.125% APR. To Set all variables to defaults. Set payments per year to 12. Press &}! & [ 12 !
RST P/Y= Display
0.00 12.00 0.00 N= I/Y= PV= PMT= 360.00 6.13 120,000.00 729.13* Return to standardcalculator & U mode. Enter number of payments using payment multiplier. Enter interest rate. Enter loan amount. Compute payment.
30 & Z , 6.125 120000 . %/ Answer: The computed monthly payment, or outflow, is $729.13. Generating an Amortization Schedule
Generate an amortization schedule for the first three years of the loan. If the first payment is in April, the first year has nine payment periods. (Following years have 12 payment periods each.) To Select the Amortization worksheet. Set beginning period to 1. Set ending period to 9. Display 1st year amortization data. Press &\
1! P1= P1= P2= BAL= PRN= INT= Display
0 1.00
9.00 118,928.63* 1071.37* 5,490.80* 10.00 21.00 #9 ! # # # Change beginning period to 10. Change ending period to 21. # 10 ! P1= # 21 ! P2= 38 TimeValueofMoney and Amortization Worksheets ba2plus.book Page 39 Thursday, April 8, 2004 1:48 PM To Display 2nd year amortization data. Press # # # #% # # # #
BAL= PRN= INT= P1= P2= BAL= PRN= INT= Display
117,421.60* _1,507.03*
7,242.53* 22.00 33.00 115,819.62* 1601.98* 7,147.58* Move to P1 and press % to enter next range of payments. Display P2. Display 3rd year amortization data. Example: Computing Payment, Interest, and Loan Balance After a Specified Payment
A group of sellers considers financing the sale price of a property for $82,000 at 7% annual interest, amortized over a 30year term with a balloon payment due after five years. They want to know: • • • Amount of the monthly payment Amount of interest they will receive Remaining balance at the end of the term (balloon payment) Computing the Monthly Payment
To Set all variables to defaults. Set payments per year to 12. Return to standardcalculator mode. Enter number of payments using payment multiplier. Enter interest rate. Enter loan amount. Compute payment. Press &}! & [ 12 ! &U
30 & Z , 782000 . N= I/Y= PV= PMT= RST P/Y= Display 0.00
12.00 0.00
360.00 7.00 82,000.00 545.55 %/ TimeValueofMoney and Amortization Worksheets 39 ba2plus.book Page 40 Thursday, April 8, 2004 1:48 PM Generating an Amortization Schedule for Interest and Balloon Payment
To Press
P1= P2= BAL= INT= Display 1.00
60.00 77,187.72 27,920.72 Select Amortization worksheet. & \ Enter end period (five years). View balance due after five years (balloon payment). View interest paid after five years. # 5 &Z ! # ## If the sellers financed the sale, they would receive: • • • Monthly payment: $545.55 for five years Interest: $27,790.72 over the five years Balloon payment: $77,187.72 40 TimeValueofMoney and Amortization Worksheets ba2plus.book Page 41 Thursday, April 8, 2004 1:48 PM 3
Cash Flow Worksheet
Use the Cash Flow worksheet to solve problems with unequal cash flows. To solve problems with equal cash flows, use the TVM worksheet. (See “TimeValueofMoney and Amortization Worksheets” on page 21.) • • • • • • To access the Cash Flow worksheet and initial cash flow value (CFo), press '. To access the cash flow amount and frequency variables (Cnn/Fnn), press # or ". To access the discount rate variable (I), press (. To compute net present value (NPV), press # or " and % for each variable. To compute the internal rate of return (IRR), press ). Cash Flow Worksheet Variables
Variable Initial cash flow Amount of n th cash flow Frequency of n th cash flow Discount rate Net present value Internal rate of return Key ' # # ( #% )% Display
CFo Cnn* Fnn* I NPV IRR Variable Type** Enteronly Enteronly Enteronly Enteronly Computeonly Computeonly * nn represents the cash flow (C01–C24) or frequency (F01–F24) number. ** This guidebook categorizes variables by the method of entry. (See “Types of Worksheet Variables” on page 18.)
Cash Flow Worksheet 41 ba2plus.book Page 42 Thursday, April 8, 2004 1:48 PM Resetting Variables
• • • • To reset CFo, Cnn, and Fnn to default values, press ' and then & z. To reset NPV to the default value, press ( and then & z. To reset IRR to the default value, press ) and then & z. To reset all calculator variables and formats to default values, including all Cash Flow worksheet variables, press & } !. Entering Cash Flows
• You must enter an initial cash flow (CFo). The calculator accepts up to 24 additional cash flows (C01–C24). Each cash flow can have a unique value. Enter positive values for cash inflows (cash received) and negative values for cash outflows (cash paid out). To enter a negative value, key in a number and press S. • Inserting and Deleting Cash Flows
The calculator displays INS or DEL to confirm that you can press & X or & W to insert or delete cash flows. Uneven and Grouped Cash Flows
Uneven Cash Flows
The Cash Flow worksheet analyzes unequal cash flows over equal time periods. Cashflow values can include both inflows (cash received) and outflows (cash paid out). All cashflow problems start with an initial cash flow labeled CFo. CFo is always a known, entered value. Grouped Cash Flows
Cashflow problems can contain cash flows with unique values as well as consecutive cash flows of equal value.
42 Cash Flow Worksheet ba2plus.book Page 43 Thursday, April 8, 2004 1:48 PM Although you must enter unequal cash flows separately, you can enter groups of consecutive, equal cash flows simultaneously using the Fnn variable. Entering Cash Flows
Cash flows consist of an initial cash flow (CFo) and up to 24 additional cash flows (C01C24), each of which can have a unique value. You must enter the number of occurrences (up to 9,999), or frequency (F), for each additional cash flow (C01C24). • • 1. 2. 3. 4. 5. 6. 7. 8. 9. The calculator displays positive values for inflows (cash received) and negative values for outflows (cash paid out). To clear the Cash Flow worksheet, press & z. Press '. The initial cashflow value (CFo) appears. Key in a value for CFo and press !. To select an additional cashflow variable, press #. The C01 value appears. To change C01, key in a value and press !. To select the cashflow frequency variable (F01), press #. The F01 value appears. To change F01, key in a value and press !. To select an additional cashflow variable, press #. The C02 value appears. Repeat steps 4 through 7 for all remaining cash flows and frequencies. To review entries, press # or ". To enter cash flows: Deleting Cash Flows
When you delete a cash flow, the calculator decreases the number of subsequent cash flows automatically. Cash Flow Worksheet 43 ba2plus.book Page 44 Thursday, April 8, 2004 1:48 PM The DEL indicator confirms that you can delete a cash flow. 1. 2. Press # or " until the cash flow you want to delete appears. Press & W. The cash flow you specified and its frequency is deleted. Inserting Cash Flows
When you insert a cash flow, the calculator increases the number of the following cash flows, up to the maximum of 24. Note: The INS indicator confirms that you can insert a cash flow. 1. 2. 3. Press # or " to select the cash flow where you want to insert the new one. For example, to insert a new second cash flow, select C02. Press & X. Key in the new cash flow and press !. The new cash flow is entered at C02. Computing Cash Flows
The calculator solves for these cashflow values: • Net present value (NPV) is the total present value of all cash flows, including inflows (cash received) and outflows (cash paid out). A positive NPV value indicates a profitable investment. 44 Cash Flow Worksheet ba2plus.book Page 45 Thursday, April 8, 2004 1:48 PM • Internal rate of return (IRR) is the interest rate at which the net present value of the cash flows is equal to 0. Computing NPV
1. 2. 3. 4. Press ( to display the current discount rate (I). Key in a value and press !. Press # to display the current net present value (NPV). To compute the net present value for the series of cash flows entered, press %. Computing IRR
1. 2. Press ). The IRR variable and current value are displayed (based on the current cashflow values). To compute the internal rate of return, press %. The calculator displays the IRR value. When solving for IRR, the calculator performs a series of complex, iterative calculations that can take seconds or even minutes to complete. The number of possible IRR solutions depends on the number of sign changes in your cashflow sequence. • When a sequence of cash flows has no sign changes, no IRR solution exists. The calculator displays Error 5. • When a sequence of cash flows has only one sign change, only one
IRR solution exists, which the calculator displays. • When a sequence of cash flows has two or more sign changes: – – At least one solution exists. As many solutions can exist as there are sign changes. Cash Flow Worksheet 45 ba2plus.book Page 46 Thursday, April 8, 2004 1:48 PM When more than one solution exists, the calculator displays the one closest to zero. Because the displayed solution has no financial meaning, you should use caution in making investment decisions based on an IRR computed for a cashflow stream with more than one sign change. The time line reflects a sequence of cash flows with three sign changes, indicating that one, two, or three IRR solutions can exist. • When solving complex cashflow problems, the calculator might not find IRR, even if a solution exists. In this case, the calculator displays Error 7 (iteration limit exceeded). Example: Solving for Unequal Cash Flows
These examples show you how to enter and edit unequal cashflow data to calculate: • • Net present value (NPV) Internal rate of return (IRR) A company pays $7,000 for a new machine, plans a 20% annual return on the investment, and expects these annual cash flows over the next six years: Year Purchase 1 2–5 6 Cash Flow Number
CFo C01 C02 C03 Cash Flow Estimate $7,000 3,000 5,000 each year 4,000 As the time line shows, the cash flows are a combination of equal and unequal values. As an outflow, the initial cash flow (CFo) appears as a negative value. 46 Cash Flow Worksheet ba2plus.book Page 47 Thursday, April 8, 2004 1:48 PM Entering CashFlow Data
To Select Cash Flow worksheet. Enter initial cash flow. Enter cash flow for first year. Enter cash flows for years two through five. Press '
7000 S ! CFo= CFo= C01= F01= C02= F02= C03= F03= Display
0.00 7,000.00 3,000.00 1.00 5,000.00 4.00 4,000.00 1.00 # 3000 ! # # 5000 ! #4! Enter cash flow for sixth year. # 4000 ! # Editing CashFlow Data
After entering the cashflow data, you learn that the $4,000 cashflow value should occur in the second year instead of the sixth. To edit, delete the $4,000 value for year 6 and insert it for year 2. To Move to third cash flow. Delete third cash flow. Move to second cash flow. Insert new second cash flow. Move to next cash flow to verify data. Press " &W "" & X 4000 ! # # # Display
C03= C03= C02= C02= F02= C03= F03= 4,000.00 0.00 5,000.00 4,000.00 1.00 5,000.00 4.00 Cash Flow Worksheet 47 ba2plus.book Page 48 Thursday, April 8, 2004 1:48 PM Computing NPV
Use an interest rate per period (I) of 20%. To Access interest rate variable Press ( Display
I= I= NPV= 0.00 20.00 7,266.44 Enter interest rate per period. 20 ! Compute net present value. Answers: NPV is $7,266.44. #% Computing IRR
To Access IRR. Compute internal rate of return.
Answer: IRR is 52.71%. Press ) # Display
IRR= IRR= 0.00 52.71 Example: Value of a Lease with Uneven Payments
A lease with an uneven payment schedule usually accommodates seasonal or other anticipated fluctuations in the lessee’s cash position. A 36month lease has the following payment schedule and beginningofperiod payments. Number of Months 4 8 3 9 2 10 Payment Amount $0 $5000 $0 $6000 $0 $7000 If the required earnings rate is 10% per 12month period with monthly compounding: • • What is the present value of these lease payments? What even payment amount at the beginning of each month would result in the same present value? 48 Cash Flow Worksheet ba2plus.book Page 49 Thursday, April 8, 2004 1:48 PM Because the cash flows are uneven, use the Cash Flow worksheet to determine the net present value of the lease. Computing NPV
The cash flows for the first four months are stated as a group of four $0 cash flows. Because the lease specifies beginningofperiod payments, you must treat the first cash flow in this group as the initial investment (CFo) and enter the remaining three cash flows on the cash flow screens (C01 and F01). Note: The BGN/END setting in the TVM worksheet does not affect the Cash Flow worksheet. To Set all variables to defaults. Select Cash Flow worksheet. Press &}! '
RST CFo= C01= F01= Display
0.00 0.00 0.00 3.00 5000.00 8.00 0.00 3.00 6000.00 9.00 0.00 2.00 7000.00 10.00 0.00 0.83 138,088.44 Enter first group of cash flows. # #3! Enter second group of cash flows. Enter third group of cash flows. Enter fourth group of cash flows. # 5000 S ! C02= F02= #8! # #3!
C03= F03= # 6000 S ! C04= F04= #9!
C05= F05= Enter fifth group of cash flows. # #2! Enter sixth group of cash flows. # 7000 S ! C06= F06= # 10 ! Select NPV. Enter monthly earnings rate. Compute NPV. (
10 6 12 ! I= I= NPV= #% Cash Flow Worksheet 49 ba2plus.book Page 50 Thursday, April 8, 2004 1:48 PM 50 Cash Flow Worksheet ba2plus.book Page 51 Thursday, April 8, 2004 1:48 PM 4
Bond Worksheet
The Bond worksheet lets you compute bond price, yield to maturity or call, and accrued interest.You can also use the date functions to price bonds purchased on dates other than the coupon anniversary. • • • To access the Bond worksheet, press & l. To access bond variables, press " or #. To change the options for daycount methods (ACT and 360) and coupons per year (2/Y and 1/Y), press & V once for each option. Note: Pressing # or " to navigate through the Bond worksheet before you enter values causes an error (Error 6). To clear the error, press P. (See “Error Messages” on page 93.) Bond Worksheet 51 ba2plus.book Page 52 Thursday, April 8, 2004 1:48 PM Bond Worksheet Variables
Variable Settlement date Annual coupon rate in percent Redemption date Key &l # # Display Variable Type
SDT CPN RDT RV ACT 360 2/Y 1/Y YLD PRI AI Enter only Enter only Enter only Enter only Setting Setting Setting Setting Enter/compute Enter/compute Autocompute Redemption value (percentage of # par value) Actual/actual daycount method 30/360 daycount method Two coupons per year One coupon per year Yield to redemption Dollar price Accrued interest # &V # &V # # # Resetting Bond Worksheet Variables
• To reset the Bond worksheet variables to default values, press & z while in the Bond worksheet. Variable
SDT CPN RDT RV Default 12311990 0 12311990 100 Variable
ACT/360 2/Y, 1/Y YLD PRI Default
ACT 2/Y 0 0 • To reset all calculator variables and formats to default values, including the Bond worksheet variables, press & } !. Entering Dates
• Use the following convention to key in dates: mm.ddyy or dd.mmyy. After keying in the date, press !. Note: You can display dates in either US or European format. (See “Setting Calculator Formats ” on page 4.) • You can enter dates from January 1, 1950 through December 31, 2049.
Bond Worksheet 52 ba2plus.book Page 53 Thursday, April 8, 2004 1:48 PM • The calculator assumes that the redemption date (RDT) coincides with a coupon date: – – To compute to maturity, enter the maturity date for RDT. To compute to call, enter the call date for RDT. Entering CPN
CPN represents the annual coupon rate as a percentage of the bond par value rather than the dollar amount of the coupon payment. Entering RV
The redemption value (RV) is a percentage of the bond par value: • • For to maturity analysis, enter 100 for RV. For to call analysis, enter the call price for RV. Setting the DayCount Method
1. 2. To display the daycount method, press # until ACT or 360 appears. To change the daycount method, press & V. Setting the Coupon Frequency
1. 2. To display the coupon frequency, press # until 1/Y or 2/Y appears. To change the coupon frequency, press & V. Bond Worksheet 53 ba2plus.book Page 54 Thursday, April 8, 2004 1:48 PM Bond Worksheet Terminology
Term Call Date Definition A callable bond can be retired by the issuing agency before the maturity date. The call date for such a bond is printed in the bond contract. The periodic payment made to the owner of the bond as interest. The annual interest rate printed on the bond. Price of the security expressed in terms of dollars per $100 of par value. The value printed on the bond. A bond that sells for an amount greater than the par value. A bond selling for less than the par value. The date on which the issuing agency retires the bond. This date can be the date of maturity or, for a callable bond, the call date. The amount paid to the owner of a bond when retired. If the bond is redeemed at the maturity date, the redemption value is the par value printed on the bond. If the bond is redeemed at a call date, the redemption value is the bond’s par value plus any call premium. The calculator treats the redemption value in terms of dollars per $100 of par value. Coupon Payment Coupon Rate Dollar Price Par (Face) Value Premium Bond Discount Bond Redemption Date Redemption Value Settlement Date The date on which a bond is exchanged for funds. Yield to Maturity The rate of return earned from payments of principal and interest, with interest compounded semiannually at the stated yield rate. The yield to maturity takes into account the amount of premium or discount, if any, and the time value of the investment. Entering Bond Data and Computing Results
To compute values for price (PRI) or yield (YLD) and accrued interest (AI), first enter the four known values for settlement date (SDT), coupon rate (CPN), redemption date (RDT), and redemption value (RV). 54 Bond Worksheet ba2plus.book Page 55 Thursday, April 8, 2004 1:48 PM If necessary, change the daycount method (ACT or 360) and couponfrequency (2/Y or 1/Y). The Bond worksheet stores all values and settings until you clear the worksheet or change the values and settings. Note: Dates are not changed when you clear a worksheet. Entering Known Bond Values
1. 2. 3. 4. Press & l. The current SDT value appears. To clear the worksheet, press & z. If necessary, key in a new SDT value and press !. Repeat step 3 for CPN, RDT, and RV, pressing # once for each variable. Note: To enter dates, use this convention: mm.ddyy (US) or dd.mmyy (European). Setting the Bond DayCount Method and Coupon Frequency
1. 2. 3. 4. To display the daycount method, press # until ACT or 360 appears. To change the daycount method, press & V. To display the coupon frequency, press # until 2/Y or 1/Y appears. To change the coupon frequency, press & V. Computing the Bond Price (PRI)
1. 2. 3. Press # until YLD appears. Key in a value for YLD and press !. Press # to display PRI, and then press %. The calculator displays the computed PRI value. Computing the Bond Yield (YLD)
1. 2. 3. Press # until PRI appears. Key in a value for PRI and press !. Press # to display YLD, and then press %. The calculator displays the computed YLD value. Computing Accrued Interest (AI)
To compute accrued interest, press # until the AI variable appears. The calculator automatically computes AI in terms of dollars per $100 of par value. Bond Worksheet 55 ba2plus.book Page 56 Thursday, April 8, 2004 1:48 PM Example: Computing Bond Price and Accrued Interest
You consider buying a semiannual corporate bond maturing on December 31, 2007 and settling on June 12, 2006. The bond is based on the 30/360 daycount method with a coupon rate of 7%, redeemable at 100% of par value. For an 8% yield to maturity, compute the bond’s price and accrued interest. Computing Bond Price and Accrued Interest
To Select Bond worksheet. Enter settlement date. Enter coupon rate. Enter redemption date. Leave redemption value as is. Select 30/360 daycount method. Leave two coupon payments per year. Enter yield. Compute price View accrued interest. Press &l
6.1206 ! Display SDT = SDT = CPN = RDT = RV = 360 2/Y YLD = PRI = AI =
8.00 98.56 3.15 12311990 6122006 7.00 12312007 100.00 #7! # 12.3107 ! # #&V # #8! #% # Answer: The bond price is $98.56 per 100. The accrued interest is $3.15 per 100. 56 Bond Worksheet ba2plus.book Page 57 Thursday, April 8, 2004 1:48 PM 5
Depreciation Worksheet
The Depreciation worksheet lets you generate a depreciation schedule using your choice of depreciation methods. • • • To access the Depreciation worksheet, press & p. To change depreciation methods, press & V until the desired method appears. To access other depreciation variables, press # or ". Note: To easily scroll up or down through a range of variables, press and hold # or ". Depreciation Worksheet Variables
Variable Straightline method Sumoftheyears’digits method Decliningbalance method Decliningbalance method with crossover to SL method French straightline method* French declining balance method* Life of the asset in years Starting month Starting date for French straightline method** Cost of the asset Salvage value of the asset Key &p &V &V &V &V &V # # # # # Display Variable Type** SL SYD DB DBX SLF DBF LIF M01 DT1 CST SAL Setting Setting Setting/Enter Setting/Enter Setting Setting/Enter Enter only Enter only Enter only Enter only Enter only Depreciation Worksheet 57 ba2plus.book Page 58 Thursday, April 8, 2004 1:48 PM Variable Year to compute Depreciation for the year Remaining book value at the end of the year Remaining depreciable value * Key # # # # Display Variable Type** YR DEP RBV RDV Enter only Autocompute Autocompute Autocompute SLF and DBF are available only if you select the European format for dates or separators in numbers. (See “Setting Calculator Formats ” on page 4.) ** This guidebook categorizes variables by their method of entry. (See “Types of Worksheet Variables” on page 18.) Resetting the Depreciation Worksheet Variables
• To reset all calculator variables and formats to default values, including the Depreciation worksheet variables, press & } !. Variable Depreciation method DB DBX LIF • Default SL 200 200 1 Variable M01 YR CST SAL Default 1 1 0 0 To clear only the LIF, YR, CST, and SAL Depreciation worksheet variables and reset default values without affecting the depreciation method or other calculator variables and formats, press & z while in the Depreciation worksheet. Computing Values for DEP, RBV, and RDV
• The calculator computes one year at a time and rounds the results to the number of decimal places set. (See “Setting Calculator Formats ” on page 4.) The calculator computes values for DEP, RBV, and RDV automatically when you press # to display each variable. • 58 Depreciation Worksheet ba2plus.book Page 59 Thursday, April 8, 2004 1:48 PM Entering Values for DB and DBX
If you choose either the declining balance (DB) or declining balance with crossover to SL (DBX) depreciation method, remember to enter a value representing the percent of declining balance for the DB or DBX variable. Note: The declining balance you enter must be a positive number. Entering Values for LIF
• • If SL or SLF is selected, the LIF value must be a positive real number. If SYD, DB, DBX, or DBF is selected, the LIF value must be a positive integer. Entering Values for M01
The value you enter for the starting month (M01) has two parts: • • The integer portion represents the month in which the asset is placed into service. The decimal portion represents the fraction of the initial month in which the asset begins to depreciate. For example, to specify that the asset will begin to depreciate in the middle of the first month, enter 1.5. To specify that the asset will begin to depreciate a quarter of the way through the fourth month, enter 4.25. Working with YR
• • When computing depreciation, the value you enter for the yeartocompute (YR) variable must be a positive integer. If the remaining depreciable value (RDV) variable is displayed, you can press # to return to the year to compute (YR) variable. To represent the next depreciation year, press % to increment the value for YR by one. To compute a depreciation schedule, repeatedly return to the year to compute (YR) variable, press % to increment the value for YR, and compute values for DEP, RBV, and RDV. The schedule is complete when RDV equals zero. • Entering Data and Computing Results
Because the Depreciation worksheet stores values and settings until you either change them or clear the worksheet, you should not have to perform every step each time you work a problem. Note: Dates are not changed when you clear a worksheet. Depreciation Worksheet 59 ba2plus.book Page 60 Thursday, April 8, 2004 1:48 PM Selecting a Depreciation Method
1. 2. 3. To access the Depreciation worksheet, press & p. The current depreciation method is displayed. To clear the worksheet, press & z. Press & V until you display the depreciation method you want (SL, SLF, SYD, DB, DBX, or DBF). Note: If you select DB or DBX, you must either key in a value or accept the default of 200. Entering Depreciation Data
1. 2. 3. To display LIF, press #. Key in a value for LIF and press !. Repeat steps 1 and 2 for M01, DT1 (if SLF), CST, SAL, and YR. Note: To select SLF or DBF, you must set either the European date or European separator format first. (See “Setting Calculator Formats ” on page 4.) Computing Results for DEP, RBV, and RDV
After entering the data, press # once for each of the DEP, RBV, and RDV variables to display the computed values.
Note: The _indicator confirms that the displayed value is computed. Generating a Depreciation Schedule
To generate a depreciation schedule and compute values for other years: 1. 2. 3. To display YR, press #. To increment the value by one, press %. To compute new values for DEP, RBV, and RDV, press # for each variable. 60 Depreciation Worksheet ba2plus.book Page 61 Thursday, April 8, 2004 1:48 PM Example: Computing StraightLine Depreciation
In midMarch, a company begins depreciation of a commercial building with a 31½ year life and no salvage value. The building cost $1,000,000. Use the straightline depreciation method to compute the depreciation expense, remaining book value, and remaining depreciable value for the first two years. To Access Depreciation worksheet. Enter life in years. Enter starting month. Enter cost. Leave salvage value as is. Leave year as is. Display depreciation amount, remaining book value, and remaining depreciable value. View second year. Display second year depreciation data. Press &p # 31.5 ! # 3.5 ! # 1000000 ! # # # # # # % # # # Display
SL LIF = M01 = CST = SAL = YR = DEP = RBV = RDV = YR = YR = DEP = RBV = RDV = 31.50 3.50 1,000,000.00 0.00 1.00 25,132.28* 974,867.72* 974,867.72* 1.00 2.00 31,746.03* 943,121.69* 943,121.69* Answer: For the first year, the depreciation amount is $25,132.28, the remaining book value is $974,867.72, and the remaining depreciable value is $974,867.72. For the second year, the depreciation amount is $31,746.03, the remaining book value is $943,121.69, and the remaining depreciable value is $943,121.69. Depreciation Worksheet 61 ba2plus.book Page 62 Thursday, April 8, 2004 1:48 PM 62 Depreciation Worksheet ba2plus.book Page 63 Thursday, April 8, 2004 1:48 PM 6
Statistics Worksheet
The Statistics worksheet performs analysis on oneand twovariable data with four regression analysis models. • • • To enter statistical data, press & j. To choose a statistics calculation method and compute the results, press & k. To access statistics variables, press # or ". Statistics Worksheet Variables
Variable Current X value Current Y value Standard linear regression Logarithmic regression Exponential regression Power regression Onevariable statistics Key Display Variable Type Enteronly Enteronly Setting Setting Setting Setting Setting & j Xnn* Ynn* # & k LIN & V Ln
EXP PWR 1V Statistics Worksheet 63 ba2plus.book Page 64 Thursday, April 8, 2004 1:48 PM Variable Key Display Variable Type
n Number of observations # (as Mean (average) of X values needed) Sample standard deviation of X Population standard deviation of X Mean (average) of Y values Sample standard deviation of Y Population standard deviation of Y Linear regression yintercept Linear regression slope Correlation coefficient Predicted X value Predicted Y value Sum of X values Sum of X squared values Sum of Y values Sum of Y squared values Sum of XY products * v
Sx sx y** Sy** sy** a** b** r** X'** Y'** GX GX2 GY** GY2** GXY** Autocompute Autocompute Autocompute Autocompute Autocompute Autocompute Autocompute Autocompute Autocompute Autocompute Enter/compute Enter/compute Autocompute Autocompute Autocompute Autocompute Autocompute nn represents the number of the current X or Y value. ** Not displayed for onevariable statistics. *** This guidebook categorizes calculator variables by their method of entry. (See “Types of Worksheet Variables” on page 18.) Resetting Statistics Worksheet Variables
• To clear all X and Y values as well as all values in the statistics portion of the worksheet without affecting the statistics calculation method, press & z while in the dataentry portion of the worksheet (& j). To reset the statistics calculation method to LIN and clear all values except X and Y, press & z while in the calculation method and computation portion of the worksheet (& k). To reset the statistics calculation method to LIN and clear all values, including X and Y, press & } !. • • Entering Data Points
• • You can enter up to 50 (x,y) data points. If you press # or " to move through the portion of the worksheet that displays results without entering data points, the calculator will display an error. When you enter data for onevariable statistics, Xnn represents the value and Ynn specifies the number of occurrences (frequency).
Statistics Worksheet • 64 ba2plus.book Page 65 Thursday, April 8, 2004 1:48 PM • When you enter a value for Xnn, the value for Ynn defaults to 1. Analyzing OneVariable Statistics
To analyze onevariable statistics, select 1V. Only values for n, v, Sx, sX, GX, and GX2 are computed and displayed for onevariable statistics. Analyzing TwoVariable Statistics
You can choose from among these four regressionanalysis methods:
• LIN Ln EXP PWR • • • Computing Values Automatically
Except for the predicted X' and Y' values, the calculator computes and displays values for statistics variables automatically when you access them. Using X' and Y' for Regression Predictions
To use the X' and Y' variables for regression predictions, you either can enter a value for X' to compute Y' or enter a value for Y' to compute X'. Regression Models
For twovariable data, the Statistics worksheet uses four regression models for curve fitting and forecasting. Model
LIN Ln EXP PWR Formula Y=a+bX Y = a + b ln(X) Y = a bx Y = a Xb Restrictions None All X values > zero All Y values > zero All X and Y values > zero The calculator interprets the X value as the independent variable and the Y value as the dependent variable. The calculator computes the statistical results using these transformed values: • •
LIN uses X and Y. Ln uses ln(X) and Y. Statistics Worksheet 65 ba2plus.book Page 66 Thursday, April 8, 2004 1:48 PM • • EXP uses X and ln(Y). PWR uses ln(X) and ln(Y). The calculator determines the values for a and b that create the line or curve that best fits the data. Correlation Coefficient
The calculator also determines r, the correlation coefficient, which measures the goodness of fit of the equation with the data. Generally: • • The closer r is to 1 or 1, the better the fit. The closer r is to zero, the worse the fit. Entering Statistical Data
Because the Statistics worksheet lets you enter and display up to 50 data points, and then stores the values until you clear the worksheet or change the values, you probably will not have to perform every step for each Statistics calculation. 1. 2. 3. To select the dataentry portion of the Statistics worksheet, press & j. X01 is displayed along with any previous value. To clear the worksheet, press & z. Key in a value for X01 and press !. • • 4. 5. For onevariable data, X01 is the first data point. For twovariable data, X01 is the first X value. To display the Y01 variable, press #. Key in a value for Y01 and press !. • For onevariable data, you can enter the number of times the X value occurs (frequency). The default value is 1. • For twovariable data, enter the first Y value. 6. 7. To display the next X variable, press #. Repeat steps 3 through 5 until you enter all of the data points. Note: To easily scroll up or down through a range of variables, press and hold # or ". 66 Statistics Worksheet ba2plus.book Page 67 Thursday, April 8, 2004 1:48 PM Computing Statistical Results
Selecting a Statistics Calculation Method
1. 2. 3. 4. 5. Press & k to select the statistical calculation portion of the Statistics worksheet. The last selected statistics calculation method is displayed (LIN, Ln,
EXP, PWR, or 1V). Press & V repeatedly until the statistics calculation method you want is displayed. If you are analyzing onevariable data, select 1V. Press # to begin computing results. Computing Results
To compute results based on the current data set, press # repeatedly after you have selected the statistics calculation method. The calculator computes and displays the results of the statistical calculations (except for X' and Y') automatically when you access them. For onevariable statistics, the calculator computes and displays only the values for n, v, Sx, sX, GX, and GX2. Computing Y'
1. 2. 3. 4. 5. To select the Statistics worksheet, press & k. Press " or # until X' is displayed. Key in a value for X' and press !. Press # to display the Y' variable. Press % to compute a predicted Y' value. Computing X'
1. 2. 3. 4. 5. To select the Statistics worksheet, press & k. Press " or # until Y' is displayed. Key in a value for Y' and press !. Press " to display the X' variable. Press % to compute an X' value. Statistics Worksheet 67 ba2plus.book Page 68 Thursday, April 8, 2004 1:48 PM 68 Statistics Worksheet ba2plus.book Page 69 Thursday, April 8, 2004 1:48 PM 7
Other Worksheets
The calculator also includes these worksheets:
• • • • • • Percent Change/Compound Interest worksheet (& q) Interest Conversion worksheet (& v) Date worksheet (& u) Profit Margin worksheet (& w) Breakeven worksheet (& r) Memory worksheet (& {) Percent Change/Compound Interest Worksheet
Use the Percent Change/Compound Interest worksheet to solve percent change, compound interest, and costsellmarkup problems. • • To access the Percent Change/Compound Interest worksheet, press & q. To access the Percent Change/Compound Interest variables, press # or ". Percent Change/Compound Interest Worksheet Variables
Variable Old value/Cost New value/Selling price Percent change/Percent markup Number of periods Key &q # # # Display
OLD NEW %CH #PD Variable Type Enter/compute Enter/compute Enter/compute Enter/compute Note: This guidebook categorizes variables by their method of entry. (See “Types of Worksheet Variables” on page 18.) Other Worksheets 69 ba2plus.book Page 70 Thursday, April 8, 2004 1:48 PM Resetting the Percent Change/Compound Interest Worksheet Variables
• To reset the Percent Change/Compound Interest variables to default values, press & z while in the Percent Change/Compound Interest worksheet. Variable
OLD NEW Default 0 0 Variable
%CH #PD Default 0 1 • To reset default values for all calculator variables and formats, press & } !. Entering Values
• For percentchange calculations, enter values for any two of the three variables (OLD, NEW, and %CH) and compute a value for the unknown variable (leave #PD=1). A positive percent change represents a percentage increase; a negative percent change represents a percentage decrease. For compoundinterest calculations, enter values for the three known variables and compute a value for the unknown fourth variable. – – – – •
OLD= present value NEW= future value %CH= interest rate per period #PD= number of periods • For costsellmarkup calculations, enter values for two of the three variables (OLD, NEW, and %CH) and compute a value for the unknown. – – – –
OLD = cost NEW= selling price %CH= percent markup #PD= 1 Computing Values
1. 2. To select the Percent Change/Compound Interest worksheet, press & q. The current value for OLD is displayed. To clear the worksheet, press & z. 70 Other Worksheets ba2plus.book Page 71 Thursday, April 8, 2004 1:48 PM 3. To enter values for the known variables, press # or " until the variable you want is displayed, then key in a value, and press !. (Do not enter a value for the variable you wish to solve.) • • • Percent Change — Enter values for two of these three variables: OLD, NEW, and %CH. Leave #PD set to 1. Compound Interest — Enter values for three of these four variables: OLD, NEW, %CH, and #PD. CostSellMarkup — Enter values for two of these three variables: OLD, NEW, and %CH. Leave #PD set to 1. 4. To compute a value for the unknown variable, press # or " until the variable you want is displayed and press %. The calculator displays the value. Example: Computing Percent Change
First, determine the percentage change from a forecast amount of $658 to an actual amount of $700. Second, determine what the new amount would be if it were 7% below the original forecast. To Select Percent Change/Compound Interest worksheet. Enter original forecast amount. Enter actual amount. Compute percent change. Enter 7 as percent change. Compute new actual amount. Press &q
658 ! Display
OLD= OLD= NEW= %CH= %CH= NEW= 0 658.00 700.00 6.38 7.00 611.94 # 700 ! #%
7 S! "% Answer: $700 represents a 6.38% increase over the original forecast of $658. A decrease of 7% would result in a new actual amount of $611.94. Example: Computing Compound Interest
You purchased stock in 1995 for $500. Five years later, you sell the stock for $750. What was the annual growth rate? To Press Display
OLD= OLD= NEW= 0 500.00 750.00 71 Select Percent Change/Compound & q Interest worksheet. Enter stock purchase price. Enter stock selling price.
Other Worksheets 500 ! # 750 ! ba2plus.book Page 72 Thursday, April 8, 2004 1:48 PM To Enter number of years. Compute annual growth rate. Press ## 5 ! "% Display
#PD= %CH= 5.00 8.45 Answer: The annual growth rate is 8.45%. Example: Computing CostSellMarkup
The original cost of an item is $100; the selling price is $125. Find the markup. To Select Percent Change/Compound Interest worksheet. Clear worksheet variables. Enter original cost. Enter selling price. Compute percent markup.
Answer: The markup is 25%. Press &q &z
100 ! Display
OLD= OLD= OLD= NEW= %CH= 0 0.00 100.00 125.00 25.00 # 125 ! #% Interest Conversion Worksheet
The Interest Conversion worksheet converts interest rates between nominal rate (or annual percentage rate) and annual effective rate. • • To access the Interest Conversion worksheet, press & v. To select interest conversion variables, press # or ". Variable Nominal rate Annual effective rate Key &v # Display NOM EFF C/Y Variable Type Enter/compute Enter/compute Enteronly Compounding periods per year # Note: The calculator categorizes variables by their method of entry. (See “Types of Worksheet Variables” on page 18.) 72 Other Worksheets ba2plus.book Page 73 Thursday, April 8, 2004 1:48 PM Comparing the Nominal Interest Rate of Investments
Comparing the nominal interest rate (annual percentage rate) of investments is misleading when the investments have the same nominal rate but different numbers of compounding periods per year. To make a more valid comparison, convert the nominal interest rate (NOM) to the annual effective interest rate (EFF) for each investment. • The nominal interest rate (NOM) is the interest rate per compounding period multiplied by the number of compounding periods per year. The annual effective interest rate (EFF) is the compound annual interest rate that you actually earn for the period of time stated. • Resetting Variables
• To reset all calculator variables and formats to default values, including the Interest Conversion worksheet variables, press & } !. Variable NOM EFF C/Y • Default 0 0 1 To clear the NOM and EFF variables and reset default values without affecting C/Y, press & z in the Interest Conversion worksheet. Converting Variables
You can convert a nominal rate to an annual effective rate or vice versa. Entering Values for Nom and EFF
Enter a value for NOM or EFF as an annual rate. Converting Interest Rates
1. 2. 3. 4. 5. To access the Interest Conversion worksheet, press & v. The current NOM value appears. To clear the worksheet, press & z. Enter a value for the known interest rate (either NOM or EFF). To enter a value for a known variable, press # or " until NOM or
EFF is displayed, key in a value, and press !. Press # to display C/Y. If necessary, change the value and press !.
73 Other Worksheets ba2plus.book Page 74 Thursday, April 8, 2004 1:48 PM 6. To compute a value for the unknown variable (interest rate), press # or " until NOM or EFF is displayed, and then press %. The calculator displays the computed value. Example: A bank offers a certificate that pays a nominal interest rate of 15% with quarterly compounding. What is the annual effective interest rate? To Select Interest Conversion worksheet. Enter nominal interest rate. Enter number of compounding periods per year. Compute annual effective interest rate. Press &v
15 ! Display NOM= NOM= C/Y= EFF=
0 15.00 4.00 15.87 ##4 ! "% Answer: A nominal interest rate of 15% compounded quarterly is equivalent to an annual effective interest rate of 15.87%. 74 Other Worksheets ba2plus.book Page 75 Thursday, April 8, 2004 1:48 PM Date Worksheet
Use the Date worksheet to find the number of days between two dates. You can also compute a date and day of the week based on a starting date and a specified number of days. • • • To access the Date worksheet, press & u. To access the date variables, press # or ". To select the daycount method (ACT and 360), press & V once for each option. Date Worksheet Variables
Variable Date 1 Date 2 Days between dates Key &u # # Display DT1 DT2 DBD
ACT* 360* Variable Type Enter/compute Enter/compute Enter/compute Setting Setting Actual/actual daycount method # 30/360 daycount method # Note: The calculator categorizes variables by their method of entry. (See “Types of Worksheet Variables” on page 18.) Resetting the Date Worksheet Variables
• To reset default values for all calculator variables and formats, including the Date worksheet variables, press & } !. Variable DT1 DT2 Default 12311990 12311990 Variable DBD Daycount method Default 0 ACT • To clear Date worksheet variables and reset default values without affecting the daycount method, press & z while in the Date worksheet. Entering Dates
• • The calculator assumes that DT1 is earlier than DT2. Enter dates for DT1 and DT2 in the selected US or European date format.
75 Other Worksheets ba2plus.book Page 76 Thursday, April 8, 2004 1:48 PM • When you compute a date for DT1 or DT2, the calculator displays a threeletter abbreviation for the day of the week (for example, WED). Selecting the DayCount Method Affects Calculations
• When you select ACT as the daycount method, the calculator uses the actual number of days in each month and each year, including adjustments for leap years. When you select 360 as the daycount method, the calculator assumes 30 days per month (360 days per year). You can compute DBD using this daycount method, but not DT1 or DT2. • Computing Dates
1. 2. 3. To select the Date worksheet, press & u. The DT1 value is displayed. To clear the worksheet, press & z. Enter values for two of the three variables: DT1, DT2, and DBD. Note: Do not enter a value for the variable you wish to solve for. 4. 5. 6. 7. To enter a value for a variable, press # or " to display the variable. Key in a value and press !. To change the daycount method setting, press # until ACT or 360 is displayed. To compute a value for the unknown variable, press # or " to display the variable, and then press %. The calculator displays the computed value. Example: Computing Days between Dates
A loan made on September 4, 2003 defers the first payment until November 1, 2003. How many days does the loan accrue interest before the first payment? To Select Date worksheet. Enter first date. Enter second date. Press &u
9.0403 ! Display DT1= DT1= DT2= ACT DBD=
58.00 12311990 9042003 11012003 # 11.0103 ! Select actual/actual daycount # # method. Compute days between dates. " % 76 Other Worksheets ba2plus.book Page 77 Thursday, April 8, 2004 1:48 PM Answer: Because there are 58 days between the two dates, the loan accrues interest for 58 days before the first payment. Profit Margin Worksheet
The Profit Margin worksheet computes cost, selling price, and gross profit margin. Note: To perform markup calculations, use the Percent Change/Compound Interest worksheet. (See “Percent Change/Compound Interest Worksheet” on page 69.) • • • To access the Profit Margin worksheet, press & w. To access profit margin variables, press " or #. Enter values for the two known variables, and then compute a value for the unknown variable. Profit Margin Worksheet Variables
Variable Cost Selling price Key &w # Display
CST SEL MAR Variable Type Enter/compute Enter/compute Enter/compute Profit margin # Note: This guidebook categorizes calculator variables by their method of entry. (See “Types of Worksheet Variables” on page 18.) Gross Profit Margin and Markup
The terms margin and markup often are used interchangeably, but each has a distinct meaning. • • Gross profit margin is the difference between selling price and cost, expressed as a percentage of the selling price. Markup is the difference between selling price and cost, expressed as a percentage of the cost. Clearing Profit Margin Worksheet Variables
• To clear the Profit Margin worksheet variables and reset default values, press & z. All Profit Margin worksheet variables default to zero. Other Worksheets 77 ba2plus.book Page 78 Thursday, April 8, 2004 1:48 PM • To reset default values for all calculator variables and formats, including the Profit Margin worksheet variables, press & } !. Computing Profit Margin
1. 2. 3. 4. To select the Profit Margin worksheet, press & w. The CST value appears. To enter a value for one of the two known variables, press # or " to select a variable, then key in a value and press !. Repeat step 2 for the second known variable. To compute a value for the unknown variable, press # or " to select the variable and press %. The calculator displays the computed value. Example: Computing Profit Margin
The selling price of an item is $125. The gross profit margin is 20%. Find the original cost. To Select Profit Margin worksheet. Enter selling price. Enter profit margin. Compute cost. Answer: The original cost is $100. Press &w # 125 ! # 20 ! ""% Display
CST= SEL= MAR= CST= 0.00 125.00 20.00 100.00 Breakeven Worksheet
The Breakeven worksheet computes the breakeven point and sales level needed to earn a given profit by analyzing relationships between fixed costs, variable costs per unit, quantity, price, and profit. You operate at a loss until you reach the breakeven quantity (that is, total costs = total revenues). • • • To access the Breakeven worksheet, press & r. To access breakeven variables, press " or #. Enter known values for the four known variables, then compute a value for the fifth, unknown variable. Note: To solve for quantity (Q), enter a value of zero for profit (PFT).
78 Other Worksheets ba2plus.book Page 79 Thursday, April 8, 2004 1:48 PM Breakeven Worksheet Variables
Variable Fixed cost Variable cost per unit Unit price Profit Quantity Key Display Variable Type Enter/compute Enter/compute Enter/compute Enter/compute Enter/compute & r FC # # # #
VC P PFT Q Note: This guidebook categorizes calculator variables by their method of entry. (See “Types of Worksheet Variables” on page 18.) Resetting the Breakeven Worksheet Variables
• • To reset default values for all Breakeven worksheet variables, press & z. All Breakeven worksheet variables default to zero. To clear all calculator variables and formats and reset default values, including the Breakeven worksheet variables, press & } !. Computing Breakeven
1. 2. 3. 4. To access the Breakeven worksheet, press & r. The FC variable appears. Press # or " to select a known variable, key in the value, and press !. Repeat step 3 for each of the remaining known variables. To compute a value for the unknown variable, press # or " until the variable is displayed, and then press %. The calculator displays the computed value. Example: Computing Breakeven Quantity
A canoe company sells paddles for $20 each. The unit variable cost is $15, and the fixed costs are $3,000. How many paddles must be sold to break even? To Access Breakeven worksheet. Enter fixed costs. Enter variable cost per unit. Enter price. Press &r
3000 ! Display
FC= FC= VC= P= 0 3,000.00 15.00 20.00 # 15 ! # 20 ! Other Worksheets 79 ba2plus.book Page 80 Thursday, April 8, 2004 1:48 PM To Leave profit as is. Compute quantity. Press # #% Display
PFT= Q= 0.00 600.00 Answer: 600 paddles must be sold to break even. Memory Worksheet
The Memory worksheet lets you compare and recall stored values by accessing the calculator’s 10 memories. All memory variables are enteronly. (See “Types of Worksheet Variables” on page 18.) • • To access the Memory worksheet, press & {. To access memory variables, press " or #. Note: You can access memories individually using D, J, and the digit keys. (See “Memory Operations” on page 12.) Memory Worksheet Variables
Variables Memory 0 Memory 1 Memory 2 Memory 3 Memory 4 Memory 5 Memory 6 Memory 7 Memory 8 Memory 9 Key &{ # # # # # # # # # Display
M0 M1 M2 M3 M4 M5 M6 M7 M8 M9 Variable Type Enteronly Enteronly Enteronly Enteronly Enteronly Enteronly Enteronly Enteronly Enteronly Enteronly Note: This guidebook categorizes calculator variables by their method of entry. (See “Types of Worksheet Variables” on page 18.) 80 Other Worksheets ba2plus.book Page 81 Thursday, April 8, 2004 1:48 PM Clearing the Memory Worksheet Variables
To clear all 10 memories at once, press & z in the Memory worksheet. Using the Memory Worksheet
1. 2. To select the Memory worksheet, press & {. M0 apears. Perform any of the following operations: • • • • To clear all 10 memories at once, press & z. To view the contents of the memories, press # or " once for each memory. To store a value, select a memory (M0M9), key in a value, and press !. Memory arithmetic. (See “Memory Arithmetic” on page 12.) Examples: Using the Memory Worksheet
To Access Memory worksheet Select M4. Clear M4. Store 95. Add 65. Subtract 30. Multiply by 95. Divide by 65. Raise to 2nd power. Press &{ ####
0! 95! Display
M0= M4= M4= M4= M4= M4= M4= M4= M4= 0 0 0.00 95.00 160.00 130.00 12,350.00 190.00 36,100.00 H6 5 ! B3 0 ! <95! 66 5 ! ;2 ! Other Worksheets 81 ba2plus.book Page 82 Thursday, April 8, 2004 1:48 PM 82 Other Worksheets ba2plus.book Page 83 Thursday, April 8, 2004 1:48 PM Appendix — Reference Information
This appendix includes supplemental information to help you use your BA II PLUSé calculator: • • • • • • • • Formulas Error conditions Accuracy information IRR (internalrateofreturn) calculations Algebraic operating system (AOS™) Battery information In case of difficulty TI product service and warranty information Formulas
This section lists formulas used internally by the calculator. Time Value of Money
( y × ln ( x + 1 ) ) i = [e –1 where: PMT ƒÄ0 y =C/Y P P/Y x =(.01 Q I/Y) P C/Y C/Y =compounding periods per year P/Y =payment periods per year I/Y =interest rate per year
(1 ÷ N) i = ( – FV ÷ PV ) –1 where: PMT =0 The iteration used to compute i: 1 – (1 + i) –N 0 = PV + PMT × G i  + FV × ( 1 + i ) i
Appendix — Reference Information 83 –N ba2plus.book Page 84 Thursday, April 8, 2004 1:48 PM I/Y = 100 × C ⁄ Y × [ e
where: x = i y =P/Y P C/Y ( y × ln ( x + 1 ) ) – 1] Gi = 1 + i Q k
where: k =0 for endofperiod payments k =1 for beginningofperiod payments PMT × G i – FV × i ln  PMT × G i + PV × i N = ln ( 1 + i )
where: i ƒ0 N = L(PV + FV) P PMT
where: i =0 –i PV + FV PMT =  × PV + N Gi (1 + i) – 1
where: i ƒ0 PMT = L(PV + FV) P N
where: i =0 PMT × G i PMT × G i 1 PV =  – FV ×  – N i i (1 + i)
where: i ƒ0 PV = L(FV + PMT Q N)
where: i =0 84 Appendix — Reference Information ba2plus.book Page 85 Thursday, April 8, 2004 1:48 PM PMT × G i PMT × G i N FV =  – ( 1 + i ) × PV +  i i
where: i ƒ0 FV = L(PV + PMT Q N)
where: i =0 Amortization
If computing bal(), pmt2 = npmt Let bal(0) = RND(PV) Iterate from m = 1 to pmt2 I m = RND [ RND 12 ( – i × bal ( m – 1 ) ) ] bal ( m ) = bal ( m – 1 ) – I m + RND ( PMT )
then: bal( ) =bal(pmt2) GPrn( ) =bal(pmt2) N bal(pmt1) GInt( ) =(pmt2 N pmt1 +1) Q RND(PMT) N GPrn( ) where: RND =round the display to the number of decimal places selected RND12 =round to 12 decimal places Balance, principal, and interest are dependent on the values of PMT, PV,
I/Y, and pmt1 and pmt2. Cash Flow NPV = CF 0 + ∑ CFj ( 1 + i )
j=1 N S – 1 ( 1 j – (1 + i) j) i n j ni where:S j = ∑ i=1 0 j≥1 j=0 Appendix — Reference Information 85 ba2plus.book Page 86 Thursday, April 8, 2004 1:48 PM Net present value depends on the values of the initial cash flow (CF0), subsequent cash flows (CFj), frequency of each cash flow (nj), and the specified interest rate (i). IRR = 100 × i, where i satisfies npv() = 0
Internal rate of return depends on the values of the initial cash flow (CF0) and the subsequent cash flows (CFj). i = I/Y ÷ 100 86 Appendix — Reference Information ba2plus.book Page 87 Thursday, April 8, 2004 1:48 PM Bonds1
Price (given yield) with one coupon period or less to redemption: 100 × R RV + M A 100 × R PRI =  –  × E M Y DSR ×  1 +  E M
where: PRI =dollar price per $100 par value RV =redemption value of the security per $100 par value (RV = 100 except in those cases where call or put features must be considered) R =annual interest rate (as a decimal; CPN _ 100) M =number of coupon periods per year standard for the particular security involved (set to 1 or 2 in Bond worksheet) DSR =number of days from settlement date to redemption date (maturity date, call date, put date, etc.) E =number of days in coupon period in which the settlement date falls Y =annual yield (as a decimal) on investment with security held to redemption (YLD P 100) A =number of days from beginning of coupon period to settlement date (accrued days) Note: The first term computes present value of the redemption amount, including interest, based on the yield for the invested period. The second term computes the accrued interest agreed to be paid to the seller. Yield (given price) with one coupon period or less to redemption: RV R R  +  – PRI + A ×   100 M 100 E M  × M × E Y= DSR PRI A R  +  × 100 E M 1. Source for bond formulas (except duration): Lynch, John J., Jr., and Jan H. Mayle. Standard Securities Calculation Methods. New York: Securities Industry Association, 1986. Appendix — Reference Information 87 ba2plus.book Page 88 Thursday, April 8, 2004 1:48 PM Price (given yield) with more than one coupon period to redemption: RV DSC Y N – 1 + E PRI = 1 +  + M RA – 100 ×  × ME N ∑ R 100 × M Y 1 +  M
DSC K – 1 + E K = 1 where: N =number of coupons payable between settlement date and redemption date (maturity date, call date, put date, etc.). (If this number contains a fraction, raise it to the next whole number; for example, 2.4 = 3) DSC =number of days from settlement date to next coupon date K =summation counter Note: The first term computes present value of the redemption amount, not including interest. The second term computes the present values for all future coupon payments. The third term computes the accrued interest agreed to be paid to the seller. Yield (given price) with more than one coupon period to redemption: Yield is found through an iterative search process using the “Price with more than one coupon period to redemption” formula. Accrued interest for securities with standard coupons or interest at maturity: RA AI = PAR ×  × ME
where: AI =accrued interest PAR =par value (principal amount to be paid at maturity) Depreciation
RDV = CST N SAL N accumulated depreciation
Values for DEP, RDV, CST, and SAL are rounded to the number of decimals you choose to be displayed. In the following formulas, FSTYR = (13 N MO1) P 12. 88 Appendix — Reference Information ba2plus.book Page 89 Thursday, April 8, 2004 1:48 PM Straightline depreciation CST – SAL LIF  × FSTYR First year: Last year or more: DEP = RDV C ST – SAL LIF Appendix — Reference Information 89 ba2plus.book Page 90 Thursday, April 8, 2004 1:48 PM Sumoftheyears’digits depreciation ( LIF + 2 – YR – FSTYR ) × ( CST – SAL ) ( ( LIF × ( LIF + 1 ) ) ÷ 2 ) First year:  × FSTYR
Last year or more: DEP = RDV LIF × ( CST – SAL ) ( ( LIF × ( LIF + 1 ) ) ÷ 2 ) Decliningbalance depreciation R BV × DB % LIF × 100
where: RBV is for YR  1  × FSTYR First year:  > RDV ; then use RDV Q FSTYR Unless If DEP > RDV, use DEP = RDV If computing last year, DEP = RDV C ST × DB % LIF × 100 C ST × DB % LIF × 100 Statistics
Note: Formulas apply to both x and y. Standard deviation with n weighting (s x): x x 2 – n n ∑ ∑ 2 1⁄2 90 Appendix — Reference Information ba2plus.book Page 91 Thursday, April 8, 2004 1:48 PM Standard deviation with n1 weighting (s x): x 2 – x n n–1 ∑ ∑ 2 1⁄2 Mean: x = n
Regressions
Formulas apply to all regression models using transformed data. (∑ x ) n ( ∑ xy ) – ( ∑ y ) ( ∑ x ) b = 2 n ( ∑ x2 ) – ( ∑ x ) (∑ y – b∑ x) a = n b δx r = δy
Interest Rate Conversions EFF = 100 × ( e C ⁄ Y × In ( x ÷ 1 ) – 1 )
where: x =.01 Q NOM P CˆY N OM = 100 × C ⁄ Y × ( e 1 ÷ C ⁄ Y × In ( x + 1 ) – 1 )
where: x =.01 Q EFF Percent Change
# PD % CH NEW = OLD 1 +  100 Appendix — Reference Information 91 ba2plus.book Page 92 Thursday, April 8, 2004 1:48 PM where: OLD =old value NEW =new value %CH =percent change #PD =number of periods Profit Margin Selling Price – Cost Gross Profit Margin =  × 100 Selling Price
Breakeven
PFT = P Q N (FC + VC Q)
where: PFT =profit P =price FC =fixed cost VC =variable cost Q =quantity Days between Dates
With the Date worksheet, you can enter or compute a date within the range January 1, 1950, through December 31, 2049. Actual/actual daycount method
Note: The method assumes the actual number of days per month and per year. DBD (days between dates) = number of days II  number of days I Number of Days I= (Y1  YB) Q 365 + (number of days MB to M1)
+ DT1 +  ( Y 1 – YB ) 4 Number of Days II=(Y2  YB) Q 365 + (number of days MB to M2) + DT2
+  ( Y 2 – YB ) 4
Appendix — Reference Information 92 ba2plus.book Page 93 Thursday, April 8, 2004 1:48 PM where: M1 =month of first date DT1 =day of first date Y1 =year of first date M2 =month of second date DT2 =day of second date Y2 =year of second date MB =base month (January) DB =base day (1) YB =base year (first year after leap year) 30/360 daycount method2
Note: The method assumes 30 days per month and 360 days per year. DBD = ( Y 2 – Y 1 ) × 360 + ( M 2 + M 1 ) × 30 + ( DT 2 – DT 1 )
where: M1 =month of first date DT1 =day of first date Y1 =year of first date M2 =month of second date DT2 =day of second date Y2 =year of second date Note: If DT1 is 31, change DT1 to 30. If DT2 is 31 and DT1 is 30 or 31, change DT2 to 30; otherwise, leave it at 31. Error Messages
Note: To clear an error message, press P. Error
Error 1 Possible Causes • • • • A result is outside the calculator range (± 9.9999999999999E99). Tried to divide by zero (can occur internally). Tried to compute 1/x when x is zero. Statistics worksheet: a calculation included X or Y values that are all the same. Overflow 2. Source for 30/360 daycount method formula: Lynch, John J., Jr., and Jan H. Mayle. Standard Securities Calculation Methods. New York: Securities Industry Association, 1986 Appendix — Reference Information 93 ba2plus.book Page 94 Thursday, April 8, 2004 1:48 PM Error
Error 2 Possible Causes • • • • • • Tried to compute x! when x is not an integer 069. Tried to compute LN of x when x is not > 0. Tried to compute y x when y < 0 and x is not an integer or the inverse of an integer. Tried to compute x when x < 0. Invalid argument Amortization worksheet: tried to compute BAL,
PRN, and INT when P2 < P1. Depreciation worksheet: a calculation included SAL > CST. More than 15 active levels of parentheses were tried in a calculation. A calculation tried to use more than 8 pending operations. Amortization worksheet: the value entered for P1 or P2 is outside the range 19,999. TVM worksheet: the P/Y or C/Y value 0. Cash Flow worksheet: the Fnn value is outside the range 0.59,999. Bond worksheet: the RV, CPN, or PRI value _0. Date worksheet: the computed date is outside the range January 1, 1950 through December 31, 2049. Depreciation worksheet: the value entered for: declining balance percent 0; LIF 0; YR _ 0; CST < 0; SAL < 0; or M01 1 M01 13. Interest Conversion worksheet: the C/Y value 0. The DEC value is outside the range 09. TVM worksheet: the calculator computed I/Y when FV, (N Q PMT), and PV all have the same sign. (Make sure cash inflows are positive and outflows are negative.) Error 3 • • • • • • • • Too many pending operations
Error 4 Out of range • •
Error 5 • No solution exists • • TVM, Cash Flow, and Bond worksheets: the LN (logarithm) input is not > 0 during calculations. Cash Flow worksheet: the calculator computed IRR without at least one sign change in the cashflow list. 94 Appendix — Reference Information ba2plus.book Page 95 Thursday, April 8, 2004 1:48 PM Error
Error 6 Possible Causes • Bond and Date worksheets: a date is invalid (for example, January 32) or in the wrong format (for example, MM.DDYYYY instead of MM.DDYY. Bond worksheet: the calculator attempted a calculation with a redemption date earlier than or the same as the settlement date. TVM worksheet: the calculator computed I/Y for a very complex problem involving many iterations. Cash Flow worksheet: the calculator computed IRR for a complex problem with multiple sign changes or PB/DPB with no payback period based on input cash flow values. Bond worksheet: the calculator computed YLD for a very complex problem. TVM worksheet: $ was pressed to stop the evaluation of I/Y. Amortization worksheet: $ was pressed to stop the evaluation of BAL or INT. Cash Flow worksheet: $ was pressed to stop the evaluation of IRR. Bond worksheet: $ was pressed to stop the evaluation of YLD. Depreciation worksheet: $ was pressed to stop the evaluation of DEP or RDV. Invalid date • Error 7 • • Iteration limit exceeded •
Error 8 • • • • • Canceled iterative calculation Accuracy Information
The calculator stores results internally as 13digit numbers but displays them rounded to 10 digits or fewer, depending on the decimal format. The internal digits, or guard digits, increase the calculator’s accuracy. Additional calculations use the internal value, not the value displayed. Rounding
If a calculation produces a result with 11digits or more, the calculator uses the internal guard digits to determine how to display the result. If the eleventh digit of the result is 5 or greater, the calculator rounds the result to the next larger value for display. For example, consider this problem. 1P3Q3=? Appendix — Reference Information 95 ba2plus.book Page 96 Thursday, April 8, 2004 1:48 PM Internally, the calculator solves the problem in two steps, as shown below. 1. 2. 1 P 3 = 0.3333333333333 0.3333333333333 Q 3 = 0.9999999999999 The calculator rounds the result and displays it as 1. This rounding enables the calculator to display the most accurate result. Although most calculations are accurate to within ±1 in the last displayed digit, higherorder mathematical functions use iterative calculations, in which inaccuracies can accumulate in the guard digits. In most cases, the cumulative error from these calculations is maintained beyond the 10digit display so that no inaccuracy is shown. AOS™ (Algebraic Operating System) Calculations
When you select the AOS calculation method, the calculator uses the standard rules of algebraic hierarchy to determine the order in which it performs operations. Algebraic Hierarchy
The table shows the order in which the calculator performs operations using the AOS calculation method. Priority 1 (highest) 2 3 4 5 6 7 (lowest) Operations
x2, x!, 1/x, %, ‡x, LN, e2, HYP, INV, SIN, COS, TAN nCr, nPr Yx Q, P
+, ) = Battery Information
Replacing the Battery
Replace the battery with a new CR2032 lithium battery. Caution: Risk of explosion if replaced by an incorrect type. Replace only with the same or equivalent type recommended by Texas Instruments. Dispose of used batteries according to local regulations. 96 Appendix — Reference Information ba2plus.book Page 97 Thursday, April 8, 2004 1:48 PM Note: The calculator cannot retain data when the battery is removed or discharged. Replacing the battery has the same effect as resetting the calculator. 1. 2. 3. 4. 5. Turn off the calculator and turn it over with the back facing you. Using a small Phillips screwdriver, remove the four screws from the back cover. Carefully pry off the back cover. Using a small Phillips screwdriver, remove the screws from the metal battery cover and lift the cover off the battery. Tip the calculator slightly to remove the battery. Caution: Avoid contact with other calculator components. 6. 7. 8. Install the new battery with the positive sign (+) sign down (not showing). Replace the battery cover and the screws that hold it in place. Align the screw holes in the back cover with those in the calculator, then snap the back cover onto the calculator. Replace the screws. Caution: Risk of explosion if replaced by an incorrect type. Replace only with the same or equivalent type recommended by Texas Instruments. Dispose of used batteries according to local regulations. Battery Precautions
• • • • • • • • Do not leave battery within the reach of children. Do not mix new and used batteries. Do not mix rechargeable and nonrechargeable batteries. Install battery according to polarity (+ and  ) diagrams. Do not place nonrechargeable batteries in a battery recharger. Properly dispose of used batteries immediately. Do not incinerate or dismantle batteries. Seek Medical Advice immediately if a cell or battery has been swallowed. (In the USA, contact the National Poison Control Center collect at 2026253333.) Used only for small button cell batteries. Battery Disposal
• • • Do not mutilate, or dispose of batteries in fire. The batteries can burst or explode, releasing hazardous chemicals. Discard used batteries according to local regulations. Appendix — Reference Information 97 ba2plus.book Page 98 Thursday, April 8, 2004 1:48 PM In Case of Difficulty
Use this list of possible solutions to difficulties you might encounter with the calculator to determine if you can correct a problem before having to return it for service. Difficulty The calculator computes wrong answers. Solution Check the settings of the current worksheet to make sure they are correct for the problem you are working; for example, in the TVM worksheet, check END and BGN and be sure the unused variable is set to zero. Select the worksheet again. Be sure the battery is properly installed and replace, if necessary. The display is blank; digits do not appear. The calculator does not display Be sure you have selected the correct the correct worksheet worksheet. variables. The calculator does not display Press &  to check or adjust the the correct number of decimal setting for number of decimal places places. displayed. The calculator does not display Press &  # # to check or adjust the correct date format. the setting for date format. The calculator does not display Press &  # # # to check or the correct separator format. adjust the setting for separator format. The calculator does not display Press &  # # # # to check or the correct result in a math adjust the setting for calculation method. calculation. An error occurs. (See “Error Messages” on page 93.) If you experience difficulties other than those listed above, press & } ! to clear the calculator, and then repeat your calculations. Note: You can also perform a hard reset using the reset hole in back of the calculator. (See “Resetting the Calculator” on page 6.) 98 Appendix — Reference Information ba2plus.book Page 99 Thursday, April 8, 2004 1:48 PM Texas Instruments Support and Service
For general information
Home Page: Knowledge Base and email inquiries: Phone: education.ti.com education.ti.com/support (800) TICARES / (800) 8422737 For U.S., Canada, Mexico, Puerto Rico, and Virgin Islands only education.ti.com/support (Click the International Information link.) International Information: For technical support
Knowledge Base and support by email: Phone (not tollfree): education.ti.com/support (972) 9178324 For Product (hardware) Service
Customers in the U.S., Canada, Mexico, Puerto Rico and Virgin Islands: Always contact Texas Instruments Customer Support before returning a product for service. All other customers: Refer to the leaflet enclosed with this product (hardware) or contact your local Texas Instruments retailer/distributor. Appendix — Reference Information 99 ba2plus.book Page 100 Thursday, April 8, 2004 1:48 PM Texas Instruments (TI) Warranty Information
Customers in the U.S. and Canada Only
OneYear Limited Warranty for Commercial Electronic Product
This Texas Instruments ("TI") electronic product warranty extends only to the original purchaser and user of the product. Warranty Duration. This TI electronic product is warranted to the original purchaser for a period of one (1) year from the original purchase date. Warranty Coverage. This TI electronic product is warranted against defective materials and construction. THIS WARRANTY IS VOID IF THE
PRODUCT HAS BEEN DAMAGED BY ACCIDENT OR UNREASONABLE USE, NEGLECT, IMPROPER SERVICE, OR OTHER CAUSES NOT ARISING OUT OF DEFECTS IN MATERIALS OR CONSTRUCTION. Warranty Disclaimers. ANY IMPLIED WARRANTIES ARISING OUT
OF THIS SALE, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE LIMITED IN DURATION TO THE ABOVE ONEYEAR PERIOD. TEXAS INSTRUMENTS SHALL NOT BE LIABLE FOR LOSS OF USE OF THE PRODUCT OR OTHER INCIDENTAL OR CONSEQUENTIAL COSTS, EXPENSES, OR DAMAGES INCURRED BY THE CONSUMER OR ANY OTHER USER. Some states/provinces do not allow the exclusion or limitation of implied warranties or consequential damages, so the above limitations or exclusions may not apply to you. Legal Remedies. This warranty gives you specific legal rights, and you may also have other rights that vary from state to state or province to province. Warranty Performance. During the above one (1) year warranty period, your defective product will be either repaired or replaced with a reconditioned model of an equivalent quality (at TI's option) when the product is returned, postage prepaid, to Texas Instruments Service Facility. The warranty of the repaired or replacement unit will continue for the warranty of the original unit or six (6) months, whichever is longer. Other than the postage requirement, no charge will be made for such repair and/or replacement. TI strongly recommends that you insure the product for value prior to mailing. Software. Software is licensed, not sold. TI and its licensors do not warrant that the software will be free from errors or meet your specific requirements. All software is provided "AS IS." Copyright. The software and any documentation supplied with this product are protected by copyright. Australia & New Zealand Customers only
OneYear Limited Warranty for Commercial Electronic Product 100 Appendix — Reference Information ba2plus.book Page 101 Thursday, April 8, 2004 1:48 PM This Texas Instruments electronic product warranty extends only to the original purchaser and user of the product. Warranty Duration. This Texas Instruments electronic product is warranted to the original purchaser for a period of one (1) year from the original purchase date. Warranty Coverage. This Texas Instruments electronic product is warranted against defective materials and construction. This warranty is void if the product has been damaged by accident or unreasonable use, neglect, improper service, or other causes not arising out of defects in materials or construction. Warranty Disclaimers. Any implied warranties arising out of this sale, including but not limited to the implied warranties of merchantability and fitness for a particular purpose, are limited in duration to the above oneyear period. Texas Instruments shall not be liable for loss of use of the product or other incidental or consequential costs, expenses, or damages incurred by the consumer or any other user. Except as expressly provided in the OneYear Limited Warranty for this product, Texas Instruments does not promise that facilities for the repair of this product or parts for the repair of this product will be available. Some jurisdictions do not allow the exclusion or limitation of implied warranties or consequential damages, so the above limitations or exclusions may not apply to you. Legal Remedies. This warranty gives you specific legal rights, and you may also have other rights that vary from jurisdiction to jurisdiction. Warranty Performance. During the above one (1) year warranty period, your defective product will be either repaired or replaced with a new or reconditioned model of an equivalent quality (at TI's option) when the product is returned to the original point of purchase. The repaired or replacement unit will continue for the warranty of the original unit or six (6) months, whichever is longer. Other than your cost to return the product, no charge will be made for such repair and/or replacement. TI strongly recommends that you insure the product for value if you mail it. Software. Software is licensed, not sold. TI and its licensors do not warrant that the software will be free from errors or meet your specific requirements. All software is provided "AS IS." Copyright. The software and any documentation supplied with this product are protected by copyright. All Other Customers
For information about the length and terms of the warranty, refer to your package and/or to the warranty statement enclosed with this product, or contact your local Texas Instruments retailer/distributor. Appendix — Reference Information 101 ba2plus.book Page 102 Thursday, April 8, 2004 1:48 PM 102 Appendix — Reference Information ba2plus.book Page 103 Thursday, April 8, 2004 1:48 PM Index
Symbols
#PD (number of periods) 70, 71, 72 #PD (number of periods, Percent Change/Compound Interest worksheet) 70 %CH (percent change) 70, 71, 72 ( (negative) indicator 3 (#$ indicator 3 (1 (value entered) indicator 3 (GX (sum of X) 63, 65 (GX² (sum of X²) 63, 65 (GXY (sum of XY products) 63 (GY (sum of Y) 63 (GY² (sum of Y²) 63 (sx (population standard deviation of X) 63, 65 (sy (population standard deviation of Y) 63 (v (mean of X) 63, 65 (w (mean of X) 63 * (value computed) indicator 3 = (value assigned) indicator 3 Actual/actual daycount method (ACT) 52, 53, 55 Addition 8 AI (accrued interest) 52, 55, 56 Algebraic Operating System (AOS™) calculations 4, 5, 96 Amortization formulas 85 schedule 21, 25, 26, 38 worksheet 21 Amount of nth cash flow (Cnn) 41 Angle units format 5 Annual coupon rate, percent (CPN) 52, 54, 55 Annual effective rate (EFF) 73, 74 annual interest rate 54, 73, 87 Annuities 21 due 24, 29, 30 ordinary 24, 29, 30 perpetual 30 ANS (Last Answer) feature 15 AOS™ (Algebraic Operating System) calculations 5, 96 APD™ (Automatic Power Down™) feature 1, 2 Arccosine 9 Arcsine 9 Arctangent 9 Automatic Power Down™ (APD™) feature 1, 2 Numerics
1/Y (one coupon per year) 52, 53, 55 1V (onevariable statistics ) 63, 64, 65 2/Y (two coupons per year) 52, 53, 55 2nd (second) functions 2 indicator 3 30/360 daycount method (360) 52, 53, 55, 76 360 (30/360 daycount method) 52, 53, 55, 76 B
b (slope) 63 Backspace key 7 BAL (balance) 22, 24 Balance (BAL) 22, 24 Battery 97 precautions 97 replacing 97 Beginningofperiod (BGN) indicator 3 payments 22, 24 BGN (beginningofperiod) indicator 3 A
a (yintercept) 63 Accrued interest (AI) 52, 55, 56 Accuracy 95 ACT (actual/actual daycount method) 52, 53, 55, 76 Actual/actual (ACT) daycount method 76 Index 103 ba2plus.book Page 104 Thursday, April 8, 2004 1:48 PM payments 22, 24 Bond accrued interest (AI) 52 price (PRI) 56 terminology 54 worksheet 51–56 Breakeven worksheet 78–80 CostSellMarkup 71, 72 Coupon payment 54 CPN (annual coupon rate, percent) 52, 53, 54, 55 CST (cost) 57, 60, 77, 78 Curve fitting 65 customer support and service 99 C
C/Y (compounding periods per year) 22, 24, 74 Calculation method 4, 5 Call date 54 Cash Flow worksheet 41–50 Cash flows computing 44 deleting 42, 43 editing 47 entering 42, 43 formulas 85 grouped 42 inserting 44 uneven 42 CFo (initial cash flow) 41 Chain (Chn) calculation 4, 5, 8 Chn (chain) calculation 4, 5, 8 Clearing calculations 6 calculator 6 characters 6 entry errors 6 error messages 6 errors 6 memory 6, 12 worksheets 6 Cnn (amount of nth cash flow) 41 Combinations 8, 10 Compound interest 54, 69, 71, 73 Compounding periods per year (C/Y) 22, 24, 74 COMPUTE indicator 3 Constant Memory™ feature 2 Constants 14 contact information 99 Correcting entry errors 7 Correlation coefficient (r) 63, 66 Cost (CST) 57, 60, 77, 78 D
Data points 66 Date 1 and 2 (DT1, DT2) 57, 76 Date worksheet 75 Dates 30/360 daycount method (360) 76 actual/actual (ACT) daycount method 76 date 1 and 2 (DT1, DT2) 76 days between dates (DBD) 76 entering 75 Days between dates (DBD) 76 DB (declining balance) 57, 59, 60, 90 DBD (days between dates) 76 DBF (French declining balance) 57, 59, 60 DBX (declining balance with crossover) 57, 59, 60 DEC (decimal format) 4 Decimal format (DEC) 4 Declining balance (DB) 57, 59, 60, 90 Declining balance with crossover (DBX) 57, 59, 60 DEG (degrees) 4, 5 Degree angle units 5 Degrees (DEG) 4, 5 DEL (delete) indicator 3 Delete (DEL) indicator 3 DEP (depreciation) 57, 58, 60 Depreciation (DEP) 57, 58, 60 Depreciation worksheet 57–61 Difficulty 98 Discount bond 54 Discount rate (I) 41 Display indicators 3 Division 8 Dollar price (PRI) 52, 54, 55 DT1 (starting date) 60 104 Index ba2plus.book Page 105 Thursday, April 8, 2004 1:48 PM DT1, DT2 (date 1 and 2) 57, 76 DUR (modified duration) 52 E
EFF (annual effective rate) 73, 74 END (endofperiod) payments 22, 24 Ending payment (P2) 22, 24 Endofperiod (END) payments 22, 24 ENTER indicator 3 Error clearing 93 messages 93 Examples accrued interest 56 amortization schedule 38 amount to borrow 36 annuities 30 balloon payment 40 bond price 56 compound interest 71 computing basic loan payments 27 constants 14 converting interest 74 correcting an entry error 7 costsellmarkup 72 days between dates 76 down payment 36 editing cash flow data 47 entering cash flow data 47 future value (savings) 28 interest received 40 internal rate of return 48 last answer 15 lease with uneven payments 48 memory 12 Memory worksheet 81 modified duration 56 monthly payments 40 monthly savings deposits 35 mortgage payments 38 net present value 47, 48, 49 other monthly payments 34 percent change 71 perpetual annuities 30 present value (annuities) 28 present value (lease with residual value) 33 present value (savings) 28 present value (variable cash flow) 33 profit margin 78 regular deposits for specific goals 37 remaining balance (balloon payment) 40 residual value 33 saving for future 35 straightline depreciation 61 EXP (exponential regression) 63, 65 Exponential regression (EXP) 63, 65 F
Face value 54 Factorial 10 FC (fixed cost) 79 FCC statement ii Fixed cost (FC) 79 Floatingdecimal format 4 Fnn (frequency of nth cash flow) 41 Forecasting 65 Formats angle units 4, 5 calculation method 5 decimal places 4 number separators 4 setting 4 Formulas 30/360 daycount method 93 accrued interest 88 actual/actual daycount method 92 amortization 85 bond price (more than one coupon period to redemption) 88 bond price (one coupon period or less to redemption) 87 bond yield (more than one coupon period to redemption) 88 Index 105 ba2plus.book Page 106 Thursday, April 8, 2004 1:48 PM bond yield (one coupon period or less to redemption) 87 bonds 87 breakeven 92 cash flow 85 days between dates 92 depreciation 88 depreciation, decliningbalance 90 depreciation, straightline 89 depreciation, sumoftheyears’digits 90 interestrate conversions 91 internal rate of return 86 net present value 85 percent change 91 profit margin 92 regressions 91 statistics 90 timevalueofmoney 83 French declining balance (DBF) 57, 59, 60 French straight line (SLF) 57, 59, 60 Frequency 44 cash flow 86 coupon 53, 55 onevariable data 66 Y value 63, 64 Frequency of nth cash flow (Fnn) 41 Frequency of X value (Ynn) 64 Future value (FV) 22, 23, 24 FV (future value) 22, 23, 24 INS (insert) indicator 3 Insert (IND) indicator 3 INT (interest paid) 22, 24 Interest Conversion worksheet 72 Interest paid (INT) 22, 24 Interest rate per year (I/Y) 22, 24 Internal rate of return (IRR) 41, 45 INV (inverse) indicator 3 Inverse (INV) indicator 3 IRR (internal rate of return) 41, 45 L
Last Answer (ANS) feature 15 Leases 21 LIF (life of the asset) 57, 59, 60 Life of the asset (LIF) 57, 59, 60 LIN (linear regression) 63, 65 Linear regression (LIN) 63, 65 Ln (logarithmic regression) 63, 65 Loans 21, 24 Logarithmic regression (Ln) 63, 65 M
M01 (starting month) 57, 59, 60 M0–M9 (memory) 12, 80, 81 MAR (profit margin) 77, 78 Math operations 8 Mean of X (v) 63, 65 Mean of Y (v) 63 Memory arithmetic 12 clearing 12 examples 12 recalling from 12 storing to 12 Memory worksheet 80–81 MOD (modified internal rate of return) 41 Modified duration (DUR) 52 Modified internal rate of return (MOD) 41 Mortgages 21 Multiplication 8 G
Grouped cash flows 42 H
Hard reset 6 HYP (hyperbolic) indicator 3 Hyperbolic (HYP) indicator 3 I
I (discount rate) 41 I/Y (interest rate per year) 22, 24 Inflows 21, 23, 25 Initial cash flow (CFo) 41 N
n (number of observations) 63, 65 106 Index ba2plus.book Page 107 Thursday, April 8, 2004 1:48 PM N (number of periods) 24 N (number of periods, TVM worksheet) 22 Negative (–) indicator 3 Net present value (NPV) 41, 44 NEW (new value) 70, 71, 72 New value (NEW) 70, 71, 72 NOM (nominal rate) 74 Nominal rate (NOM) 73, 74 NPV (net present value) 41, 44 Number of observations (n) 63, 65 Number of periods (#PD) 70, 71, 72 Number of periods (#PD), Percent Change/Compound Interest worksheet 70 Number of periods (N) 24 Number of periods (N), TVM worksheet 22 Number separators format 4 O
OLD (old value) 70, 71, 72 Old value (OLD) 70, 71, 72 One coupon per year (1/Y) 52, 53, 55 Onevariable statistics (1V) 63, 64, 65 Outflows 21, 25 Overview of calculator operation 1– 19 P
P (unit price) 79 P/Y (payments per year) 22, 24, 25 P1 (starting payment) 22, 24 P2 (ending payment) 22, 24 Par value 54 Parentheses 8, 10 Payment (PMT) 22, 23, 24 Payments per year (P/Y) 22, 24, 25 Percent 8 Percent addon 8 Percent change (%CH) 70, 71, 72 Percent Change/Compound Interest worksheet 69 Percent discount 8 Percent ratio 8 Permutations 8, 10 Index PFT (profit) 79 PMT (payment) 22, 23, 24 Population standard deviation of X ((x) 63, 65 Population standard deviation of Y ((y) 63 Power regression (PWR) 63, 65 Predicted X value (X') 63, 65, 67 Predicted Y value (Y') 63, 65, 67 Premium bond 54 Present value (PV) 22, 23, 24 PRI (bond price) 56 PRI (dollar price) 52, 54, 55 Principal paid (PRN) 22, 24 PRN (principal paid) 22, 24 Procedures computing accrued interest 55 computing basic loan interest 26 computing bond price 55 computing bond yield 55 computing breakeven 79 computing breakeven quantity 79 computing compound interest 70 computing costsellmarkup 70 computing dates 76 computing internal rate of return 45 computing net present value 45 computing percent change 70 computing profit margin 78 computing statistical results 67 computing X’ 67 computing Y’ 67 constants for various operations 14 converting interest 73 deleting cash flows 43 entering bond data 55 entering cash flows 43 entering data points 66 entering depreciation data 60 generating a depreciation schedule 60 generating amortization schedules 25, 26 inserting cash flows 44 107 ba2plus.book Page 108 Thursday, April 8, 2004 1:48 PM selecting a depreciation method 60 selecting a statistics calculation method 67 selecting bond settings 55 using the memory worksheet 81 Profit (PFT) 79 Profit margin (MAR) 77, 78 Profit Margin worksheet 77–78 PV (present value) 22, 23, 24 PWR (power regression) 63, 65 Q
Q (quantity) 79 Quantity (Q) 79 date variables 75 depreciation variables 58 interest conversion variables 73 percent change/compound interest variables 70 statistics variables 64 TVM variables 23 Resetting calculator 6 hard reset 6 pressing keys 6 RI (reinvestment rate) 41 Rounding 11, 95 RV (redemption value) 52, 53, 54, 55 S
SAL (salvage value) 57, 60 Salvage value (SAL) 57, 60 Sample standard deviation of X (Sx) 63, 65 Sample standard deviation of Y (Sy) 63 Savings 21 Scientific notation 11 SDT (settlement date) 52, 54, 55 Second (2nd) functions 2 indicator 3 Quit 2 SEL (selling price) 77, 78 Selling price (SEL) 77, 78 service and support 99 SET (setting) indicator 3 Setting (SET) indicator 3 Settlement date (SDT) 52, 54, 55 SL (straight line) 57, 59, 60 SLF (French straight line) 57, 59, 60 Slope (b) 63 Square 8 Square root 8 Starting date (DT1) 60 Starting month (M01) 57, 59, 60 Starting payment (P1) 22, 24 Statistical data 66 Statistics worksheet 63–67 Storing to memory 12 Straight line (SL) 57, 59, 60 Subtraction 8 R
r (correlation coefficient) 63, 66 RAD (radians) 5 RAD (radians) indicator 3 Radians (RAD) 5 Radians (RAD) indicator 3 Random numbers 10 RBV (remaining book value) 57, 58, 60 RDT (redemption date) 52, 53, 54, 55 RDV (remaining depreciable value) 57, 58, 60 Reading the display 2 Recalling from memory 12 Redemption date (RDT) 52, 53, 54, 55 Redemption value (RV) 52, 53, 54 Regression models exponential 65 linear 65 logarithmic 65 power 65 Reinvestment rate (RI) 41 Remaining book value (RBV) 57, 58, 60 Remaining depreciable value (RDV) 57, 58, 60 Resetting amortization variables 23 bond variables 52 breakeven variables 79 cash flow variables 42 108 Index ba2plus.book Page 109 Thursday, April 8, 2004 1:48 PM Sum of the years’ digits (SYD) 57, 59, 60 Sum of X (GX) 63, 65 Sum of X² (GX²) 63, 65 Sum of XY products (GXY) 63 Sum of Y (GY) 63 Sum of Y² (GY²) 63 support and service 99 Sx (sample standard deviation of X) 63, 65 Sy (sample standard deviation of Y) 63 SYD (sum of the years’ digits) 57, 59, 60 W
warranty 100 Whatif calculations 16 Worksheets Amortization 21 Bond 51 Breakeven 78 Cash Flow 41 Date 75 Depreciation 57 display indicators 19 Interest Conversion 72 Memory 80 Percent Change/Compound Interest 69 Profit Margin 77 prompted 19 TVM (TimeValueofMoney) 16, 17, 18, 21 variables 16, 17, 18, 19 T
TimeValueofMoney (TVM) worksheet 16, 17, 18, 21 TimeValueofMoney and Amortization worksheets ??–40 Turning calculator off 1 Turning calculator on 1 TVM (TimeValueofMoney) worksheet 16, 17, 18, 21 Two coupons per year (2/Y) 52, 53, 55 Twovariable statistics 65, 67 X
X value (Xnn) 63, 64 X' (predicted X value) 63, 65, 67 Xnn (X value) 63, 64 xP/Y key (multiply payments per year) 25 U
Uneven cash flows 42 Unit price (P) 79 Universal power 8 Y
Y' (predicted Y value) 63, 65 Year to compute (YR) 57, 59, 60 Yield to maturity 54 Yield to redemption (YLD) 52, 55 Yintercept (a) 63 YLD (yield to redemption) 52, 55 Ynn (frequency of X value) 63, 64 YR (year to compute) 57, 59, 60 V
Value assigned (=) indicator 3 Value computed (*) indicator 3 Value entered (1) indicator 3 Variable cost per unit (VC) 79 VC (variable cost per unit) 79 Index 109 ba2plus.book Page 110 Thursday, April 8, 2004 1:48 PM 110 Index ...
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This note was uploaded on 09/12/2010 for the course ACCT 101 taught by Professor Drkirch during the Spring '10 term at Ohio University Athens.
 Spring '10
 DrKirch

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