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CHAPTER 5 LESSON 5 Exponential Functions and Investing.

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Presentation on theme: "CHAPTER 5 LESSON 5 Exponential Functions and Investing."— Presentation transcript:

1

2 CHAPTER 5 LESSON 5 Exponential Functions and Investing

3 Compound Annual Interest

4 Future Value of an Account

5 Future Value of an Investment with Periodic Compounding

6 Daily Versus Annual Compounding of Interest  Write the equation that gives the future value of $1000 invested for t years at 8% compounded annually.  Write the equation that gives the future value of $1000 invested for t years at 8% compounded daily.  Graph the equations from the parts above on the same axes with t between 0 and 30.  What is the additional amount of interest earned in 30 years from compounding daily rather than annually.

7 Number e

8 Type of Compounding Number of Compounding Periods per Year Future Value in $ Annually1 Quarterly4 Monthly12 Daily365 Hourly8760 Each Minute525,600 X times per yearX

9 Number e  As the table indicates, the future value increases (but not very rapidly) as the number of compounding periods during the year increases.  As x gets very large, the future value approaches the number e

10 Compounding Continuously

11 Future Value and Continuous Compounding  What is the future value of $2650 invested for 8 years at 12% compounded continuously?  How much Interest will be earned on this investment?

12 Continuous Versus Annual Compounding of Interest  For each of 9 years, compare the future value of an investment of $1000 at 8% compounded both annually and continuously.  Graph the functions for annual and continuous compounding for t = 30 years on the same axes.  What conclusion can be made regarding compounding annually and compounding continuously?

13 Present Value of an Investment

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15 Present Value  What lump sum must be invested at 10% compounded semiannually for the investment to grow to $15,000 in 7 years?

16 Mutual Fund Growth  The data in the table give the annual return on an investment of $1.00 made on March 31,1990, in the AIM Value Fund, Class A Shares. The values reflect reinvestment of all distributions and changes in net asset value but exclude sales charges.  Use an exponential function to model this data.  Use the model to find what the fund will amount to on March 31, 2001 if $10000 is invested March 31, 1990 and the fund continues to follow this model after 2000.  Is it likely that this fund continued to grow at this rate in 2002? Time (years) Avg. Annual Total Return ($) 11.23 32.24 53.11 106.82

17 Homework  Pages 386-388  1-7,13-15,17, 19,21,23-29,36

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