Fundamentals of Financial Instruments. Sunil K. Parameswaran

Fundamentals of Financial Instruments - Sunil K. Parameswaran


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arrow left-parenthesis 1 plus r right-parenthesis Superscript 4 Baseline equals 2 right double arrow r equals left-bracket 2 right-bracket Superscript 0.25 Baseline minus 1 equals 0.1892 identical-to 18.92 percent-sign EndLayout"/>

      Since the actual rate of return obtained by Alfred is greater than the required rate of return of 12%, the investment is attractive.

      Not surprisingly, all three approaches lead to the same decision.

      If the first payment is made or received at the end of the first period, then we call it an ordinary annuity. Examples include salary, which will be paid only after an employee completes his duties for the month, and house rent, which will be usually paid by the tenant only at the end of the month. The interval between successive payments is called the payment period. We will assume that the payment period is the same as the interest conversion period. That is, if the annuity pays annually, we will assume annual compounding, whereas if it pays semiannually we will assume half-yearly compounding. This assumption is not mandatory and, in practice, we can easily handle cases where the payment period is longer than the interest conversion period, as well as instances where it is shorter.

An illustration of Timeline for an Annuity

      Assume that the applicable interest rate per period is r%. We can then calculate the present and future values as shown here.

      Present Value

StartLayout 1st Row normal upper P period normal upper V equals StartFraction upper A Over left-parenthesis 1 plus r right-parenthesis EndFraction plus StartFraction upper A Over left-parenthesis 1 plus r right-parenthesis squared EndFraction plus StartFraction upper A Over left-parenthesis 1 plus r right-parenthesis cubed EndFraction plus minus minus minus minus plus StartFraction upper A Over left-parenthesis 1 plus r right-parenthesis Superscript upper N Baseline EndFraction EndLayout

      Therefore,

StartLayout 1st Row normal upper P period normal upper V left-parenthesis 1 plus r right-parenthesis equals upper A plus StartFraction upper A Over left-parenthesis 1 plus r right-parenthesis EndFraction plus StartFraction upper A Over left-parenthesis 1 plus r right-parenthesis squared EndFraction plus minus minus minus minus plus StartFraction upper A Over left-parenthesis 1 plus r right-parenthesis Superscript upper N minus 1 Baseline EndFraction 2nd Row right double arrow normal upper P period normal upper V left-bracket left-parenthesis 1 plus r right-parenthesis minus 1 right-bracket equals upper A minus StartFraction upper A Over left-parenthesis 1 plus r right-parenthesis Superscript upper N Baseline EndFraction 3rd Row right double arrow normal upper P period normal upper V equals StartFraction upper A Over r EndFraction left-bracket 1 minus StartFraction 1 Over left-parenthesis 1 plus r right-parenthesis Superscript upper N Baseline EndFraction right-bracket EndLayout

      EXAMPLE 2.16

      Alpha Technologies is offering a financial instrument to Alfred that promises to pay $2,500 per year for 25 years, beginning one year from now. Alfred requires an annual rate of return of 8%. The question is, what is the maximum price that he will be prepared to pay?

      PVIFA left-parenthesis 8 comma 25 right-parenthesis equals 10.6748. Thus the value of the payments is:

2 comma 500 times PVIFA left-parenthesis 8 comma 25 right-parenthesis equals 2 comma 500 times 10.6748 equals dollar-sign 26 comma 687

      Future Value

      Similarly, we can compute the future value of a level annuity that makes N payments, by compounding each cash flow until the end of the last payment period.

StartLayout 1st Row normal upper F period normal upper V equals upper A left-parenthesis 1 plus r right-parenthesis Superscript upper N minus 1 Baseline plus upper A left-parenthesis 1 plus r right-parenthesis Superscript upper N minus 2 Baseline plus upper A left-parenthesis 1 plus r right-parenthesis Superscript upper N minus 3 Baseline plus minus minus minus minus plus upper A EndLayout

      Therefore,

StartLayout 1st Row 1st Column Blank 2nd Column normal upper F period normal upper V left-parenthesis 1 plus r right-parenthesis equals upper A left-parenthesis 1 plus r right-parenthesis Superscript upper N Baseline plus upper A left-parenthesis 1 plus r right-parenthesis Superscript upper N minus 1 Baseline plus upper A left-parenthesis 1 plus r right-parenthesis Superscript upper N minus 2 Baseline 2nd Row 1st Column Blank 2nd Column plus minus minus minus minus plus upper A left-parenthesis 1 plus r right-parenthesis right double arrow normal upper F period normal upper V left-bracket left-parenthesis 1 plus r right-parenthesis minus 1 right-bracket 3rd Row 1st Column Blank 2nd Column equals upper A left-parenthesis 1 plus r right-parenthesis Superscript upper N Baseline minus upper A right double arrow normal upper F period normal upper V equals StartFraction upper A Over r EndFraction left-bracket left-parenthesis 1 plus r right-parenthesis Superscript upper N Baseline minus 1 right-bracket EndLayout

      StartFraction 1 Over r EndFraction left-bracket left-parenthesis 1 plus r right-parenthesis Superscript upper N Baseline minus 1 right-bracket is called the Future Value Interest Factor Annuity (FVIFA). This is the future value of an annuity that pays $1 per period for N periods, where interest is compounded at the rate of r% per period. The advantage once again is that if we know the factor, we can calculate the future value of any annuity that pays $A per period.

      EXAMPLE 2.17

      Paula Baker expects to receive $2,500 per year for the next 25 years, starting one year from now. Assuming that the cash flows can be reinvested at 8% per annum, how much will she have at the point of receipt of the last cash flow?

      FVIFA left-parenthesis 8 comma 25 right-parenthesis equals 73.1059 period Thus the future value is:

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