Saving Money, Making Money

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Saving Money, Making Money Suppose you receive for graduation a gift of $1,200 from your favorite relative. You are required to invest at least $800 of the gift in a no-withdrawal savings program for at least two years. You have designed two plans to consider. Plan A: First Savings Bank (FSB) pays 6% interest, compounded annually on savings accounts. Employee s Credit Union (ECU) has options that allow you to choose your interest rate and how often your interest is compounded. 1. Determine how much you would have at the end of 2 years if you decided to invest $1,000 at FSB. 2. One of the options at ECU pays 5% interest annually and compounds interest quarterly. How much would your initial deposit there need to be to have the same amount that you would have after investing $1,000 with FSB for 2 years? 3. Another option at ECU compounds interest monthly. If you invest $1,000 compounded monthly with ECU, what interest rate would they have to pay for you to have the same amount that you would have after investing $1,000 with FSB for 2 years? 4. If one plan at ECU pays 4.75% interest compounded bimonthly (every two months), and you invest $1,000 in that plan, how long would it take for you to have the same amount that you would have after investing $1,000 with FSB for 2 years? Plan B: ECU also has some plans in which interest is compounded continuously. You are still comparing with an investment of $1,000 at 6% annual interest at FSB. 1. Suppose your savings will earn 5% interest compounded continuously at ECU. How much would your initial deposit there need to be to have the amount you could have with FSB in 2 years? 2. If your initial deposit at ECU is $1,000, what continuous compound Chapter 6: Eponential and Logarithmic Functions 267

interest rate would ECU need to pay for you to have the amount you could have with FSB in 2 years? 3. You speculate about making no additional deposits and no withdrawals from the savings account for 10 years. What continuous compound interest rate would ECU have to pay so that your initial $1,000 doubles in 10 years? How would that compare with the amount in your account at FSB after 10 years? 268 Chapter 6: Eponential and Logarithmic Functions

Chapter 6: Eponential and Logarithmic Functions 269

Notes Materials: Graphing calculator Algebra II TEKS Focus: (2A.11) Eponential and logarithmic functions. The student formulates equations and inequalities based on eponential and logarithmic functions, uses a variety of methods to solve them, and analyzes the solutions in terms of the situation. The student is epected to: (D) determine solutions of eponential and logarithmic equations using graphs, tables, and algebraic methods. (F) analyze a situation modeled by an eponential function, formulate an equation or inequality, and solve the problem. Additional Algebra II TEKS: (2A.2) Foundations for functions. The student understands the importance of the skills required to manipulate symbols in order to solve problems and uses the necessary algebraic skills required to simplify algebraic epressions and solve equations and inequalities in problem situations. The student is epected to: (A) use tools including factoring and properties of eponents to simplify Scaffolding Questions: What function rule epresses the amount of money, A dollars, in a savings account as a function of the number of years, t, money is in the account if interest is compounded n times per year? What function rule do you use if interest is compounded continuously? As you solve for different parameters in these functions what types of equations do you encounter? What methods do you have for solving eponential equations? What methods seem to work best in these situations? Sample Solutions: Plan A 1. For FSB, the function epressing the amount of money, A dollars, in an account in terms of years of deposit, t years, is A = P( 1+ r ) t where P = the initial deposit (principal) in dollars, and r = the annual interest rate. After 2 years, the amount in an account with $1,000 principal and 6% interest will be 2 2 1, 000( 1+. 06) = 1, 000( 1. 06) = $ 1123,. 60. 2. If ECU pays 5% interest annually and compounds quarterly, the function epressing A in terms of years of deposit, t, is r A = P 1+ n where n is the number of compounding periods per year. nt 270 Chapter 6: Eponential and Logarithmic Functions

In this problem, r = 0.05, n = 4, and t = 2. We need to determine P so that we break even with FSB. Therefore we need to solve Our initial deposit at ECU would need to be $17.31 more than our deposit at FSB for us to have the same amount in 2 years. 3. This time we know that at ECU, P = 1,000, n = 12, and t = 2. We need to determine the interest rate, r, so that we have the same amount as we would have with FSB. Therefore, we need to solve 12* 2 r 1, 000 1+ = 1123,. 6 12 24 r 1+ = 1. 1236 12 r 1+ = ( 1. 1236) 12 1 24 epressions and to transform and solve equations. Connection to TAKS: Objective 1: The student will describe functional relationships in a variety of ways. Objective 2: The student will ( demonstrate an understanding of the properties and attributes of functions. Objective 5: The student will demonstrate an understanding of quadratic and other nonlinear functions. Objective 10: The student will demonstrate an understanding of the mathematical processes and tools used in problem solving. r = 0. 0049 12 r = 0. 0584 The annual interest rate at ECU would need to be 5.84%. 4. Now we know at ECU, P = 1,000, r = 0.0475, and n = 6. We need to determine t so that we have $1,123.60 in the savings account. Therefore, we need to solve Chapter 6: Eponential and Logarithmic Functions 271

1 000 1 0., + 0475 6 6t 6t = 1123,. 6 ( 1. 0079) = 1. 1236 6t (ln 1. 0079) = ln( 1. 1236) ln( 1. 1236) t = 6ln( 1. 0079) t 2. 47 2 1 It would take 2 years for you to have as much money at ECU as you would have at FSB at the end of 2 years. Plan B The function epressing the amount, A dollars, in an account that earns interest continuously in terms of t years is where r = the continuous compound interest rate. 1. If r = 0.05 and t = 2, we need to solve Our principal at ECU again would need to be $1,016.68 to break even with FSB after 2 years of saving. 2. This time, we need to solve A = ( 0. 05) 2 Pe r t P e = 1123,. 6 0. 1 e P = 1123,. 6 - P = 1123,. 6e P = 1, 016. 68 r 2 1000( e ) = 1123,. 6 e 2r = 1. 1236 0. 1 2r = ln( 1. 1236) r = 0. 0583 ECU s interest rate would need to be 5.83%. 272 Chapter 6: Eponential and Logarithmic Functions

3. For ECU, we need to solve the equation r 10 1, 000( e ) = 2, 000 = 2 10r = ln( 2) ln( 2) r = 10 r = 0. 069 ECU would have to pay 6.9% continuous compound interest. e 10r After 10 years at FSB, we would have 10 1, 000( 1. 06) = $ 1, 790. 84 in the account. Etension Questions: In Plan A, problem 1, the function rules for FSB and ECU respectively are 4 Y1 = 1, 000( 1. 06) and Y2 = 1, 017( 1. 0125). The variable has been used to represent time on the graphing calculator. Which generates more money? How do you decide? This can be shown with tables. Here are the tables for these functions: For less than 2, the y-values are more for Y 2. That is, during the first 2 years there is more money in the account at ECU. The amounts are almost equal at equals 2. They break even at 2 years. For -values greater than 2, Y 2 is greater. After that, FSB is the better place to have your money. The graph also shows this solution. Chapter 6: Eponential and Logarithmic Functions 273

Another way to see this is to solve the equation to find when the two functions have the same y-value. 4 1, 000( 1. 06) = 1, 017( 1. 0125) 4 log[ 1, 000( 1. 06) ] = log[ 1, 017( 1. 0125) ] log 1, 000 + log( 1. 06) = log 1, 017 + log( 1. 0125) 4 log 1, 000 + log( 1. 06) = log1017 + 4 log( 1. 0125) log( 1. 06) 4 log( 1. 0125) = log 1, 017 log1, 000 [ ] = log( 1. 06) 4log( 1. 0125) log 1, 017 log 1, 000 = log 1, 017 log 1, 000 log( 1. 06) 4log( 1. 0125) [ ] = 1. 965 In about 1.965 years the functions have the same amount. What kinds of equations did you have to solve in Plan A? Problem 1 had a linear equation. P 1 0. + 05 4 8 = 1. 123. 60 for P Problem 2 had an eponential equation. 24 r 1, 000 1+ = 1123,. 60 12 for r Problem 3 had eponential and required logarithms. 1 000 1 0., + 475 6 6t = 1123,. 60 for t Suppose you are given the value of r s in the continuous compound interest situation, Y = A( 1+ r s ). How can you determine possible values of r c in the compound interest situation that make continuous compound interest the better deal? 274 Chapter 6: Eponential and Logarithmic Functions

We want the continuously compounded interest amount earned to be greater than the compound interest amount. c Ae > A( 1+ r ) e e r r r > ( 1+ r ) > ( 1+ r ) r > ln( 1+ r ) c c c s s s s Choose r c so that r > ln( 1+ r ). c s Chapter 6: Eponential and Logarithmic Functions 275

276 Chapter 6: Eponential and Logarithmic Functions

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