Chapter 5

1. Chapter 5 Section 5.2 Compound Interest

2. Compound Interest Many interest investment will pay a portion of the interest that has been earned of certain regular fixed time periods. This type of interest is called compound interest and the time period it is paid over is called a compounding period. There is a definite advantage to this type of investment in that it allows the interest to begin earning interest. There are many different ways to name compounding periods. The chart below shows several of the most common. Keep in mind the prefix "bi" means 2 and the prefix "semi" means ½. What you want to be able to find is the number of compounding periods in 1 year. (Some of the most common ones are in red.)

3. Periodic Rate The importance of knowing how many compounding periods are in a year is to be able to compute the periodic rate (i) for the investment which is the yearly rate (r) divided by the number of periods in 1 year. Investment Periods The term of a compound interest investment is not measured in years, but is measured by the number of compounding periods over the duration of the investment. The variable n stands for the number of periods in the entire investment. For example, if it compounded weekly then n is the number of weeks it is invested, if monthly then n is the number of months, if semiannually then n is the number of 6 month intervals etc. Compound Interest Future Value If a principal P is invested in a compound interest investment with a periodic rate i for a duration of n compounding periods the future value FV is given by:

4. It is a matter of algebra to see how you get this formula. Recall the future value formula for a simple interest investment in 1 period. Notice that i = rt, since t will be the number of periods in 1 year. In the 1st period we have : In the 2nd period we have : In the 3rd period we have : In the nth period we have : Example A grandfather invests $10,000 in a trust fund for his grandson's college education when he is born. The fund pays 4% compounded monthly. How much will he have for college on his 18th birthday. The questions wants to know the future value (FV) of this investment. P = 10,000

5. Present Value The present value (P or PV) of an investment is the amount of money need now to have a certain future value. A formula for this can be found by using some algebra to solve for P in the compound interest formula. Example A person wants to invest a certain amount of money now in an account that pays 6.4% compounded quarterly so that they have $30,000 in 5 years. How much money should they invest? The question wants to know the present value for the investment. FV = 30,000

6. Annual Yield The annual yield (or yield) of a compound interest investment is the interest that is earned on $1 for a term of 1 year. If the compounding period is annual it is exactly the same as the rate (r). The purpose of the annual yield is to provide an even (fair) comparison of different terms of compound interest investments to determine which is best. The formula for the annual yield is obtained by computing the future value of the investment for 1 year and subtracting a $1. The value of n is the number of periods in a year. Find the annual yield for an investment of 2.56% compounded semiannually. n = 2 and r = .0256 Find the annual yield for an investment of 2.55% compounded daily. n = 365 and r = .0255 Which of the two investments above is better? The investment that is 2.55% compounded daily is better even though it has a smaller rate! In 1 year it will earn more for each dollar invested.