Chapter 5 Homework

d. What is the present value of a ​$60 perpetuity discounted back to the present at 11 percent?

60/.11 =545.45

a. What is the present value of a $650 perpetuity discounted back to the present at 14 percent?

650/.14 =4,642.68

b. What is the present value of a ​$1,500 perpetuity discounted back to the present at 18 percent?

1,500/.18 =8,333.33

c. What is the present value of a ​$110 perpetuity discounted back to the present at 15 percent?

110/.15 =733.33

​(Complex present value​) You would like to have $56,000 in 14 years. To accumulate this amount you plan to deposit each year an equal sum in the​bank, which will earn 6 percent interest compounded annually. Your first payment will be made at the end of the year. a. How much must you deposit annually to accumulate ​$56,000 in 14 ​years?

FV= $56,000 Annual rate= 6% Periods= 14 Payments= 2,664.75

b. If you decide to make a large​ lump-sum deposit today instead of the annual​ deposits, how large should this​ lump-sum deposit​ be? (Assume you can earn 6 percent on this​ deposit.)

FV= $56,000 Annual rate= 6% Periods= 14 Payments= 0 PV= $24,768.85

(Present value​) The Kumar Corporation is planning on issuing bonds that pay no interest but can be converted into $2,000 at ​maturity, 19 years from their purchase. To price these bonds competitively with other bonds of equal​risk, it is determined that they should yield 12 percent, compounded annually. At what price should the Kumar Corporation sell these​bonds?

Kumar Corporation should sell these bonds at $232.21

​(Future value of an annuity​) In 11 years you are planning on retiring and buying a house in​Oviedo, Florida. The house you are looking at currently costs $160,000 and is expected to increase in value each year at a rate of 3 percent. Assuming you can earn 14 percent annually on your​investments, how much must you invest at the end of each of the next 11 years to be able to buy your dream home when you​retire? a. If the house you are looking at currently costs $160,000 and is expected to increase in value each year at a rate of 3 ​percent, what will the value of the house be when you retire in 11 years?

PV= $160,000 Payments= 0 Annual rate= 3% Periods= 11 **Annually FV=$221,477.42

d. To what amount will $20,000 invested for 4 years at 6 percent compounded annually​ accumulate?

PV= $20,000 Payment= 0 Annual rate= 6% Periods= 4 Annually FV= $25,249.54

​(Compound value solving for r​) At what annual rate would the following have to be​ invested? a. ​$490 to grow to ​$1,057.87 in 10 years b. ​$320 to grow to ​$507.80 in 6 years c. ​$50 to grow to ​$509.87 in 19 years d. ​$200 to grow to ​$243.10 in 4 years a. At what annual rate would $490 have to be invested to grow to $1,057.87 in 10 years?

PV= $490 Payment= 0 FV= $1,057.87 Periods= 10 Annual rate=

b. To what amount will ​$7,800 invested for 7 years at 7 percent compounded annually​ accumulate?

PV= $7,800 Payment= 0 Annual rate= 7% Periods= 7 Annually FV= $12,525.10

c. To what amount will $795 invested for 11 years at 12 percent compounded annually​ accumulate?

PV= $795 Payment= 0 Annual rate= 12% Periods= 11 Annually FV= $2,765.45

a. If the house you are looking at currently costs ​$110,000 and is expected to increase in value each year at a rate of 3 ​percent, what will the value of the house be when you retire in 6 years?

PV= -110,000 Payments= 0 Annual rate= 3% Periods= 6 FV= 131,345.75

At what annual rate would $204 have to be invested to grow to ​$247.96 in 4 years?

PV= -204 Payments= 0 FV= 247.96 Periods= 4 Annual rate= 5%

At what annual rate would $290 have to be to invested to grow to ​$536.79 in 8 years?

PV= -290 Payments= 0 FV= 536.79 Periods= 8 Annual rate= 8%

​(Solving for n​) Jack asked Jill to marry​him, and she has accepted under one​condition: Jack must buy her a new $350,000 ​Rolls-Royce Phantom. Jack currently has $44,200 that he may invest. He has found a mutual fund with an expected annual return of 4.2​% in which he will place the money. How long will it take Jack to win​Jill's hand in​marriage? Ignore taxes.

PV= -44,200 Payments= 0 FV= 350,000 Rate= 4.2% Periods= 50.29

At what annual rate would $50 have to be invested to grow to $602.78 in 19 years?

PV= -50 Payments= 0 FV= 602.78 Periods= 19 Annual rate= 14%

At what annual rate would $510 have to be invested to grow to $1,148.62 in 12 years?

PV= -510 Payments= 0 FV= 1,148.62 Periods= 12 Annual rate= 7%

b. What is the future sum of $6,000 in a bank account for 6 years at an APR of 5 percent compounded​ semiannually?

PV= -6,000 Payments= 0 Annual rate= 2.5% Periods= 12 FV= 8,069.33 ANNUALLY

a. What is the future sum of $6,000 in a bank account for 6 years at an APR of 5 percent?

PV= -6,000 Payments= 0 Annual rate= 5% Periods= 6 FV= 8,040.57

b. Assuming you can earn 8 percent annually on your​ investments, how much must you invest at the end of each of the next 6 years to be able to buy your dream home when you​ retire?

PV= 0 FV= 131,345.75 Annual rate= 8% Periods= 6 Payments= 17,904.45

Judge whether the following statement about the shape of the sales trend line is true or false.

​"The sales trend graph is not​ linear, because this is a compound growth​ trend." True

(Compound annuity​) You plan on buying some property in Florida 7years from today. To do this you estimate that you will need ​$40,000 at that time for the purchase. You would like to accumulate these funds by making equal annual deposits in your savings​ account, which pays 12 percent annually. If you make your first deposit at the end of this​ year, and you would like your account to reach ​$40,000 when the final deposit is​ made, what will be the amount of your​ deposits?

PV= 0 FV= 40,000 Annual rate= 12% Periods= 7 Payments= 3,964.71

b. What is the accumulated sum of $100 a year for 8 years compounded annually at 8 percent?

PV= 0 Payments= 100 Annual rate= 8% Periods= 8 FV= $1,063.66

d. What is the accumulated sum of $24 a year for 6 years compounded annually at 5 percent?

PV= 0 Payments= 24 Annual rate= 5% Periods= 6 FV= $163.25

c. What is the accumulated sum of $35 a year for 12 years compounded annually at 11​ percent?

PV= 0 Payments= 35 Annual rate= 11% Periods= 12 FV= $794.96

​(Compound annuity​) What is the accumulated sum of each of the following streams of​ payments? a. ​$490 a year for 9 years compounded annually at 9 percent. b. ​$100 a year for 8 years compounded annually at 8 percent. c. ​$35 a year for 12 years compounded annually at 11percent. d. ​$24 a year for 6 years compounded annually at 5 percent. a. What is the accumulated sum of $490 a year for 9 years compounded annually at 9 percent?

PV= 0 Payments= 490 Annual rate= 9% Periods= 9 FV= $6,380.31

What is the accrued value of $10,000 in a savings account paying annual compound interest of 6 percent for 16 years?

PV= 10,000 Payments= 0 Annual rate= 6% Periods= 16 FV= $25,403.52

d. What is the present value of ​$1,200 to be received 5 years from now discounted back to the present at 18 ​percent?

Payments= 0 FV= $1,200 Annual rate= 18% Period= 5 PV= $524.53

b. What is the present value of ​$200 to be received 6 years from now discounted back to the present at 8 ​percent?

Payments= 0 FV= $200 Annual rate= 8% Periods= 6 PV= $126.03

What is the current balance in​ Nick's retirement​ fund?

$376,499.73+$140,637.02 =$517,136.75

a. What is the present value of investment A at 18 percent annual discount​ rate?

Payments= -17,000 Annual rate= 18% Periods= 5 PV= 53,161.91

e. With respect to the effect of changes in the stated interest rate and holding periods on future​ sums, which of the following statements is​ correct? ​(Select the best choice​ below.)

D. An increase in the stated interest rate will increase the future value of a given sum.​ Likewise, an increase in the length of the holding period will increase the future value of a given sum.

c. What is the present value of ​$1,150 to be received 11 years from now discounted back to the present at 4 ​percent?

Payments= 0 FV= $1,150 Annual rate= 4% Periods= 11 PV= $747.02

​(Solving for r of an annuity​) You lend a friend $40,000​, which your friend will repay in 10 equal annual​end-of-year payments of $7,000​, with the first payment to be received 1 year from now. What rate of return does your loan​receive?

PV = -$40,000 Payments = 7,000 FV = 0 Periods = 10 Annual rate = 11.73%

​(Solving for r in compound interest​) You lend a friend $9,000​, for which your friend will repay you $14,000 at the end of 7 years. What interest rate are you charging your​friend?

PV = -9,000 Payments = 0 FV = 14,000 Periods = 7 Annual rate = 6.52%

​(Compound value​) Stanford​ Simmons, who recently sold his​ Porsche, placed ​$10,000 in a savings account paying annual compound interest of 6 percent. a. Calculate the amount of money that will have accrued if he leaves the money in the bank for 3​, 6​, and 16 years. b. If he moves his money into an account that pays 8 percent or one that pays 10 ​percent, rework part ​(a​) using these new interest rates. c. What conclusions can you draw about the relationship between interest​ rates, time, and future sums from the calculations you have completed in this​ problem? a. What is the accrued value of $10,000 in a savings account paying annual compound interest of 6 percent for 3 years?

PV= 10,000 Payments= 0 Annual rate= 6% Periods= 3 FV= $11,910.16

What is the accrued value of $10,000 in a savings account paying annual compound interest of 6 percent for 6 ​years?

PV= 10,000 Payments= 0 Annual rate= 6% Periods= 6 FV= $14,185.19

b. If the money was moved to an account that pays 8 percent, what is the accrued value of $10,000 in the account for 3 years?

PV= 10,000 Payments= 0 Annual rate= 8% Periods= 3 FV= $12,597.12

(Future value​) Sales of a new finance book were 12,000 copies this year and were expected to increase by 23 percent per year. What are expected sales during each of the next 3​ years? Graph this sales trend and explain. a. If the 12,000 copies of book sales this year were expected to increase by 23 percent per​ year, what are the expected sales of the new finance book next​ year?

PV= 12,000 Payments= 0 Annual rate= 23% Periods= 1 FV= 14,760

b. If the 12,000 copies of book sales this year were expected to increase by 23 percent per​ year, what are the expected sales of the new finance book in two​ years?

PV= 12,000 Payments= 0 Annual rate= 23% Periods= 2 FV= 18,154.8

c. If the 12,000 copies of book sales this year were expected to increase by 23 percent per​ year, what are the expected sales of the new finance book in three​ years?

PV= 12,000 Payments= 0 Annual rate= 23% Periods= 3 FV= 22,330.4

​(Compound interest​) To what amount will the following investments​ accumulate? a. ​$5,000 invested for 10 years at 10 percent compounded annually. b. ​$7,800 invested for 7 years at 7 percent compounded annually. c. ​$795 invested for 11 years at 12 percent compounded annually. d. ​$20,000 invested for 4 years at 6 percent compounded annually. a. To what amount will ​$5,000 invested for 10 years at 10 percent compounded annually​ accumulate?

PV= 5,000 Payment= 0 Annual rate= 10% Periods= 10 Annually FV= $12,968.71

a. Giancarlo Stanton hit 50 home runs in 2014. If his​ home-run output grew at a rate of 11 percent per​ year, what would it have been in​ 2015?

PV= 50 Payment= 0 Annual rate= 11% Periods= 1 FV= 55.5

b. Giancarlo Stanton hit 50 home runs in 2014. If his​ home-run output grew at a rate of 11 percent per​ year, what would it have been in​ 2016?

PV= 50 Payment= 0 Annual rate= 11% Periods= 2 FV= 61.61

c. Giancarlo Stanton hit 50 home runs in 2014. If his​ home-run output grew at a rate of 11 percent per​ year, what would it have been in​ 2017?

PV= 50 Payment= 0 Annual rate= 11% Periods= 3 FV= 68.38

d. Giancarlo Stanton hit 50 home runs in 2014. If his​ home-run output grew at a rate of 11 percent per​ year, what would it have been in​ 2018?

PV= 50 Payment= 0 Annual rate= 11% Periods= 4 FV= 75.9

e. Giancarlo Stanton hit 50 home runs in 2014. If his​ home-run output grew at a rate of 11 percent per​ year, what would it have been in​ 2019?

PV= 50 Payment= 0 Annual rate= 11% Periods= 5 FV= 84.25

If the money was moved to an account that pays 10 ​percent, what is the accrued value of ​$10,000 in the account for 16 ​years?

PV=10,000 Payments= 0 Annual rate= 10% Periods= 16 FV= $45,949.73

If the money was moved to an account that pays 10 percent, what is the accrued value of $10,000 in the account for 3 years?

PV=10,000 Payments= 0 Annual rate= 10% Periods= 3 FV= $13,310.00

If the money was moved to an account that pays 10 ​percent, what is the accrued value of $10,000 in the account for 6 ​years?

PV=10,000 Payments= 0 Annual rate= 10% Periods= 6 FV= $17,715.61

If the money was moved to an account that pays 8 ​percent, what is the accrued value of ​$10,000 in the account for 16 ​years?

PV=10,000 Payments= 0 Annual rate= 8% Periods= 16 FV= $34,259.43

If the money was moved to an account that pays 8 percent, what is the accrued value of $10,000 in the account for 6 ​years?

PV=10,000 Payments= 0 Annual rate= 8% Periods= 6 FV= $15,868.74

(Present value of an uneven stream of payments​) You are given three investment alternatives to analyze. The cash flows from these three investments are shown in the popup​ window: LOADING.... Assuming a discount rate of 17 ​percent, find the present value of each investment. a. What is the present value of investment A at 17 percent annual discount​ rate?

Payments= -14,000 Annual rate= 17% Periods= 5 PV= $44,790.85

b. If 16 percent is the appropriate discount​ rate, what is the present value of the cash​ flows?

Payments= -150,000 FV= 0 Annual rate= 16% Periods= 20 PV= 889,326.13 PV*1.16 PV= 1,031,618.31

​(Present value​) The state​lottery's million-dollar payout provides for $3 ​million(s) to be paid over 19 years in 20 payments of $150,000. The first $150,000 payment is made​immediately, and the 19 remaining $150,000 payments occur at the end of each of the next 19 years. If 8 percent is the appropriate discount​rate, what is the present value of this stream of cash​flows? If 16 percent is the appropriate discount​rate, what is the present value of the cash​flows? a. If 8 percent is the appropriate discount​ rate, what is the present value of this stream of cash​ flows?

Payments= -150,000 FV= 0 Annual rate= 8% Periods= 20 PV= 1,472,722.11 PV*1.08 PV=1,590,539.88

(Present value​) What is the present value of the following future​ amounts? a. ​$900 to be received 10 years from now discounted back to the present at 10 percent. b. ​$200 to be received 6 years from now discounted back to the present at 8 percent. c. ​$1,150 to be received 11 years from now discounted back to the present at 4 percent. d. ​$1,200 to be received 5 years from now discounted back to the present at 18 percent. a. What is the present value of $900 to be received 10 years from now discounted back to the present at 10 percent?

Payments= 0 FV= $900 Annual rate= 10% Periods= 10 PV= $346.99

​(Solving for r in an annuity​) Your folks just called and would like some advice from you. An insurance agent just called them and offered them the opportunity to purchase an annuity for $9,236.33 that will pay them $1,500 per year for 15 ​years, but they​don't have the slightest idea what return they will be making on their investment of ​$9,236.33. What rate of return will they be​earning? The annual rate of return they will be earning is...?

Payments= 1,500 FV= 0 PV= -9,236.33 Periods= 15 R= 13.95%

b. Nick received an inheritance check for $30,000 from his beloved uncle 20 years ago and deposited the entire amount into his retirement fund earning 7.8​% interest compounded quarterly. How much has this amount accumulated in the retirement​ account?

Periods= 20x4=80 Annual rate= 7.8%/4=1.95 Payments=0 PV= 30,000 ANNUALlY **FV=$140,637.02

​(Nonannual compounding using a calculator​) Jesse Pinkman is thinking about trading cars. He estimates he will still have to borrow $22,000 to pay for his new car. How large will​Jesse's monthly car loan payment be if he can get a 3​-year (36 equal monthly​payments) car loan from the ​university's credit union at an APR of 7.2 percent compounded​monthly?

Periods= 36 Annual rate= 7.2%/12=.6 PV=22,000 FV=0 Annually Payments= $681.31

c. At the end of 5 years you will receive $8,000 and deposit this in the bank toward your goal of $42,000 at the end of 10 years. In addition to this​ deposit, how much must you deposit in equal annual deposits to reach your​ goal? (Again assume you can earn 8 percent on this​ deposit.)

STEP 1. PV= 8,000 Annual rate= 8% Periods= 5 FV= 11,754.62 42,000-11,754.62=30,245.38 STEP2. FV=30,245.38 Annual rate= 8% Periods= 10 Payments= $2,087.82

c. What is the present value of investment C at 16 percent annual discount​ rate? (Year 1= $17,000 Year 2= $85,000 Year 3= $17,000)

STEP 1. TVM CALC. FV= 17,000 Annual rate= 16% Periods= 1 PV= $14,655.17 Compounded annually STEP 2. FV= 85,000 Annual rate= 16% Periods= 6 PV= $34,887.59 STEP 3. FV= 17,000 Annual rate= 16% Periods= 10 PV= $3,853.62 STEP 4. $14,655.17+$34,887.59+$3,853.62 =$53,396.38

b. What is the present value of investment B at 16 percent annual discount​ rate? ($17,000 for 6 years)

STEP 1. TVM CALC. Payments= 17,000 Annual rate= 16% Periods= 6 PV=62,640.51 Compounded annually STEP 2. Payments= 0 Annual rate= 16% Periods= 4 FV=62,640.51 PV= $34,595.80

​(Complex annuity​) Upon graduating from college 40 years​ ago, Dr. Nick Riviera was already thinking of retirement. Since then he has made deposits into his retirement fund on a quarterly basis in the amount of $350. Nick has just completed his final payment and is at last ready to retire. His retirement fund has earned 7.8​% interest compounded quarterly. a. Since graduating from college 40 years​ ago, Dr. Nick Riviera has made deposits into his retirement fund on a quarterly basis in the amount of $350. If his retirement fund has earned 7.8​% interest compounded quarterly​, how much has Nick accumulated in his retirement​ account?

TVM CALC Annual rate= 7.8%/4=1.95 Payment= -350 Periods=40x4=160 PV=0 ANNUALLY **FV= $376,499.73

b. If you decide to make a large​ lump-sum deposit today instead of the annual​ deposits, how large should this​ lump-sum deposit​ be? (Assume you can earn 8 percent on this​ deposit.)

TVM CALC FV= $42,000 Annual rate= 8% Periods= 10 Compounded annually FV= $19,454.13

​(Complex present value​) You would like to have $42,000 in 10 years. To accumulate this amount you plan to deposit each year an equal sum in the​bank, which will earn 8 percent interest compounded annually. Your first payment will be made at the end of the year. a. How much must you deposit annually to accumulate $42,000 in 10 years?

TVM CALC FV= $42,000 Annual rate= 8% Periods= 10 Compounded annually Payments=$2,899.24

a. What is the present value of investment A at 16 percent annual discount​ rate? ($17,000 for 5 years)

TVM CALC. Payments= -17,000 Annual rate= 16% Periods= 5 Compounded annually PV= $55,662.99

​(Compound interest with nonannual periods​) b. What is the future sum of $6,000 in a bank account for 8 years at an APR of 4 percent compounded​ semiannually?

TVM CALC. Present value= $6000 Payments= 0 Annual rate= 2% Periods= 16 Compounded annually FV= $8,236.71

d. What is the future sum of $6,000 in a bank account for 16 years at an APR of 4 percent?

TVM CALC. Present value= $6000 Payments= 0 Annual rate= 4% Periods= 16 Compounded annually FV= $11,237.89

​(Compound interest with nonannual periods​) a. What is the future sum of $6,000 in a bank account for 8 years at an APR of 4 ​percent?

TVM CALC. Present value= $6000 Payments= 0 Annual rate= 4% Periods= 8 Compounded annually FV= $8,211.41

What is the future sum of $6,000 in a bank account for 8 years at an APR of 4 percent compounded bimonthly​ (every two​ months)?

TVM CALC. Present value= $6000 Payments= 0 Annual rate= 4%/6 =.66666666667 or 2/3 Periods= 8*6=48 Compounded annually FV= $8,254

c. What is the future sum of $6,000 in a bank account for 8 years at an APR of 8 percent?

TVM CALC. Present value= $6000 Payments= 0 Annual rate= 8% Periods= 8 Compounded annually FV= $11,105.58

What is the future sum of $6,000 in a bank account for 8 years at an APR of 8 percent compounded bimonthly​ (every two​ months)?

TVM CALC. Present value= $6000 Payments= 0 Annual rate= 8%/6 =1.333333333 Periods= 8*6 =48 Compounded annually FV= $11,330.86

What is the future sum of $6,000 in a bank account for 8 years at an APR of 8 percent compounded​ semiannually?

TVM CALC. Present value= $6000 Payments= 0 Annual rate= 8/2=4% Periods= 8*2=16 Compounded annually FV= $11,237.89

c. What conclusions can you draw about the relationship between interest​ rates, time, and future sums from the calculations you have completed in this​ problem?

There is a positive relationship between both the interest rate used to compound a present sum and the number of years for which the compounding continues and the future value of that sum.