Chapter 5

1. Chapter 5

2. The Time Value of Money

3. Chapter Objectives • Understand and calculate compound interest • Understand the relationship between compounding and bringing money back to the present • Annuity and future value • Annuity Due • Future value and present value of a sum with non-annual compounding • Determine the present value of an uneven stream of payments • Perpetuity • Understand how the international setting complicates time value of money

4. Compound Interest • When interest paid on an investment is added to the principal, then during the next period, interest is earned on the new sum

5. Simple Interest • Interest is earned on principal • $100 invested at 6% per year • 1st year interest is $6.00 • 2nd year interest is $6.00 • 3rd year interest is $6.00 • Total interest earned:$18

6. Compound Interest • Interest is earned on previously earned interest • $100 invested at 6% with annual compounding • 1st year interest is $6.00 Principal is $106 • 2nd year interest is $6.36 Principal is $112.36 • 3rd year interest is $6.74 Principal is $119.11 • Total interest earned: $19.10

7. Future Value • How much a sum will grow in a certain number of years when compounded at a specific rate.

8. Future Value • What will an investment be worth in a year? • $100 invested at 7% • FV = PV(1+i) • $100 (1+.07) • $100 (1.07) = $107

9. Future Value • Future Value can be increased by: • Increasing number of years of compounding • Increasing the interest or discount rate

10. Future Value • What is the future value of $1,000 invested at 12% for 3 years? (Assume annual compounding) • Using the tables, look at 12% column, 3 time periods. What is the factor? • $1,000 X 1.4049 = 1,404.90

11. Present Value What is the value in today’s dollars of a sum of money to be received in the future ? or The current value of a future payment

12. Present Value • What is the present value of $1,000 to be received in 5 years if the discount rate is 10%? • Using the present value of $1 table, 10% column, 5 time periods • $1,000 X .621 = $621 • $621 today equals $1,000 in 5 years

13. Annuity • Series of equal dollar payments for a specified number of years. • Ordinary annuity payments occur at the end of each period

14. Compound Annuity • Depositing or investing an equal sum of money at the end of each year for a certain number of years and allowing it to grow.

15. Compounding Annuity • What will $1,000 deposited every year for eight years at 10% be worth? • Use the future value of an annuity table, 10% column, eight time periods • $1,000 X 11.436 = $11,436

16. Future Value of an Annuity • If we need $8,000 in 6 years (and the discount rate is 10%), how much should be deposited each year? • Use the Future Value of an Annuity table, 10% column, six time periods. • $8,000 / 7.716 = $1036.81 per year

17. Present Value of an Annuity • Pensions, insurance obligations, and interest received from bonds are all annuities. These items all have a present value. • Calculate the present value of an annuity using the present value of annuity table.

18. Present Value of an Annuity • Calculate the present value of a $100 annuity received annually for 10 years when the discount rate is 6%. • $100 X 7.360 = $736

19. Present Value of an Annuity • Would you rather receive $450 dollars today or $100 a year for the next five years? • Discount rate is 6%. • To compare these options, use present value. • The present value of $450 today is $450. • The present value of a $100 annuity for 5 years at 6% is XXX?

20. Present Value table, five time periods, 6% column factor is 4.2124 • $100 X 4.2124 = 421.24 • Which option will you choose? • $450 today or $100 a year for five years

21. Annuities Due • Ordinary annuities in which all payments have been shifted forward by one time period.

22. Amortized Loans • Loans paid off in equal installments over time • Typically Home Mortgages

23. Payments and Annuities • If you want to finance a new motorcycle with a purchase price of $25,000 at an interest rate of 8% over 5 years, what will your payments be? • Use the present value of an annuity table, five time periods, 8% column – factor is 3.993 • $25,000 / 3.993 = 6,260.96 • Five annual payments of $6,260.96

24. Amortization of a Loan • Reducing the balance of a loan via annuity payments is called amortizing. • A typical amortization schedule looks at payment, interest, principal payment and balance.

25. Amortization Schedule Amortize the payments on a 5-year loan for $10,000 at 6% interest. N Payment Interest Prin. Pay New Balance (PxRxT) (Payment - (Principal – Prin Pay) Interest) 1 $2,373.96 $600 $1,773.96 $8,226.04 2 $2,373.96 $493.56 $1,880.40 $6,345.64 3 $2,373.96 $380.74 $1,993.22 $4352.42 4 $2,373.96 $261.15 $2,112.81 $2,239.61 5 $2,373.99 $134.38 $2239.61 -----------

26. Mortgage Payments • How much principal is paid on the first payment of a $70,000 mortgage with 10% interest, on a 30 year loan (with monthly payments) • Payment is $614 • How much of this payment goes to principal and how much goes to interest? • $70,000 x .10 x 1/12 = $583 • Payment of $614, $583 is interest, $31 is applied toward principal

27. Compounding Interest with Non-annual periods • If using the tables, divide the percentage by the number of compounding periods in a year, and multiply the time periods by the number of compounding periods in a year. • Example: • 10% a year, with semi annual compounding for 5 years. • 10% / 2 = 5% column on the tables • N = 5 years, with semi annual compounding or 10 • Use 10 for Number of periods, 5% each

28. Non-annual Compounding What factors should be used to calculate 5 years at 12% compounded quarterly • N = 5 x 4 = 20 • % = 12% / 4 = 3% • Use 3% column, 20 time periods

29. Perpetuity • An annuity that continues forever is called perpetuity • The present value of a perpetuity is • PV = PP/i • PV = present value • PP = Constant dollar amount of perpetuity • i = Annuity discount rate

30. Future Value of $1 Table N6%8%10%12% 1 1.06 1.0800 1.1000 1.1200 2 1.1236 1.1664 1.2100 1.2544 3 1.1910 1.2597 1.3310 1.4049 4 1.2625 1.3605 1.4641 1.5735 5 1.3382 1.4693 1.6105 1.7623 6 1.4185 1.5869 1.7716 1.9738 7 1.5036 1.7138 1.9487 2.2107 8 1.5938 1.8509 2.1436 2.4760 9 1.6895 1.9990 2.3579 2.7731 10 1.7908 2.1589 2.5937 3.1058

31. Present Value of $1 N6%8%10%12% 1 .9434 .9259 .9091 .8929 2 .8900 .8573 .8264 .7972 3 .8396 .7938 .7513 .7118 4 .7921 .7350 .6830 .6355 5 .7473 .6806 .6209 .5674 6 .7050 .6302 .5645 .5066 7 .6651 .5835 .5132 .4523 8 .6274 .5403 .4665 .4039 9 .5919 .5002 .4241 .3606 10 .5584 .4632 .3855 .3220

32. Future Value of Annuity N6%8%10%12% 1 1.000 1.0000 1.000 1.000 2 2.060 2.0800 2.100 2.1200 3 3.1836 3.2464 3.310 3.3744 4 4.3746 4.5061 4.6410 4.7793 5 5.6371 5.8666 6.1051 6.3528 6 6.9753 7.3359 7.7156 8.1152 7 8.3938 8.9228 9.4872 10.8090 8 9.8975 10.6366 11.4359 12.2997 9 11.4913 12.4876 13.5795 14.7757 10 13.1808 14.4866 15.9374 17.5487

33. Present Value of an Annuity N6%8%10%12% 1 .9434 .9259 .9091 .8929 2 1.8334 1.7833 1.7355 1.6901 3 2.6730 2.5771 2.4869 2.4018 4 3.4651 3.3121 3.1699 3.0373 5 4.2124 3.9927 3.7908 3.6048 6 4.9173 4.6229 4.3553 4.1114 7 5.5824 5.2064 4.8684 4.5638 8 6.2098 5.7466 5.3349 4.9676 9 6.8017 6.2469 5.7590 5.3282 10 7.3601 6.7101 6.1446 5.6502