09/09/2018 Mathematics of Finance Topic 1: Simple Interest and Simple Discount SIMPLE INTEREST AND SIMPLE DISCOUNT THE CONCEPT OF INTEREST Money is invested or borrowed in thousands of transactions every day. When an investment is cashed in or when borrowed money is repaid, there is a fee that is collected or charged. This fee is called interest. Interest can be viewed as the “rent” one pays for the money. use of somenone else’s In any financial transaction, there are two parties involved: an investor, who is lending money to someone, and a debtor, who is borrowing money from the investor. The debtor must pay back the money originally borrowed, and also the rent (or fee) charged for the use of the money, called interest. The capital originally invested is called principal. The sum of the principal and interest due is called the future or accumulated value. The rate of interest is the ratio of the interest earned in one time unit on the principal. Mathematics of Finance 2 1 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT SIMPLE INTEREST In these cases, we shall consider the interest is attracted only by the principal, which remains unchanged during the period of investment. Therefore, under simple interest, the interest earned (or paid) is computed on the principal during the whole time. We shall use the following notation: P = principal, present value or the discounted value. I = simple interest. S = accumulated value or future value. r = annual rate of simple interest. t = time in years. I=P·t·r S=P+I=P·(1+r·t) Short-term transactions often use simple interest. Mathematics of Finance 3 SIMPLE INTEREST AND SIMPLE DISCOUNT The unit of time will be one year. We shall convert any period expressed in other units (days, weeks, months) into a fraction of a year. When the time is given in months o days, then: t = number of months / 12 t = number of days / 365 (exact interest) t = number of days / 360 (ordinary interest) EXAMPLE.- A loan of $15 000 is taken out. If the interest rate of the loan is 7%, how much interest is due and what is the amount repaid if the loan is due in 7 months? I = P·r·t = 15000 · 0’07 · 7/12 = $612’50 S = P·(1+r·t) = 15000 · ( 1 + 0’07 · 7/12) = $15 612’50 Mathematics of Finance 4 2 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- Calculate the exact and ordinary simple interest on a 90days loan of $8000 at 8’5% Exact interest ! I = 8000 · 0’085 · 90/365 = $167’67 Ordinary interest ! I = 8000 · 0’085 · 90/360 = $170’00 EXAMPLE.- A loan of $100 is to be repaid with $108 at the end of 8 months. What was the annual simple interest rate? 108 = 100 ( 1 + r · 8/12) ! r = 12% EXAMPLE.- A deposit of $1500 is made into a fund for 140 days. The fund earns simple interest at 5%. Then, the interest rate changes to 4’5% for 79 days. How much is in the fund at the end of the investment? S = 1500 + 1500·0’05·140/365 + 1500·0’045·79/365 = $1543’38 5 Mathematics of Finance SIMPLE INTEREST AND SIMPLE DISCOUNT EXERCISES TO WORK IN CLASS. 1) Determine the maturity value of a) a $2500 loan for 18 months at 12% simple interest, b) a $1200 loan for 120 days at 8’5% ordinary simple interest, and c) a $10 000 loan for 64 days at 7% exact simple interest. 2) At what rate of simple interest will a) $1000 accumulate to $1420 in 2’5 years, b) money double itself in 7 years, and c) $500 accumulate $10 interest in 2 months? 3) How many days will it take a) $1000 to accumulate to at least $1200 at 5’5% simple interest, b) $1600 to earn at least $30 of interest at 3’5% simple interest, and c) $5000 to accumulate to at least $5100 at 9% simple interest? Mathematics of Finance 6 3 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT When we calculate P from S, we call P the present value of S or the discounted value of S. You can interpret the value P as the amount needed to be invested today in order to have S in t years. P = S (1+r·t)-1 EXAMPLE.- Three months after borrowing money, a person pays back exactly $200. How much was borrowed if the $200 payment includes the principal and simple interest at 9%? P = 200 ( 1 + 0’09 · 3/12 )-1 ! P = $195’60 EXAMPLE.- Jennifer wishes to have $1000 in eight month’s time. If she can earn 6% simple interest, how much does she need to invest? How much interest does she earn? P = 1000 ( 1 + 0’06 · 8/12)-1 = $961’54 I = 1000 – 961’54 = $38’46 7 Mathematics of Finance SIMPLE INTEREST AND SIMPLE DISCOUNT All financial decisions must take into account the basic idea that money has time value. In order words, receiving $100 today is not the same that receiving $100 one year ago. In a financial transaction involving money due on different dates, every sum of money should have an attached date, the date on which it falls due. The mathematic of finance deals with dated values. This is one of the most important facts in the mathematics of finance. At a simple interest rate of 8%, $100 due in one year is considered to equivalent to $108 in two years since $100 would accumulated to $108 in one year. In the same way, $100 (1+0’08)-1 = $92’59 would be considered an equivalent sum today. 92’59 100 108 0 1 2 From a financial point of view, all of three values are the same, or are equivalent. Mathematics of Finance 8 4 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A debt of $1000 is due at the end of 9 months. Using a simple interest rate of 9%, determine an equivalent debt at the end of 4 months and at the end of 1 year. At the end of 4 months ! Time goes back (simple interest): P = 1000 (1+0’09·5/12)-1 = $963’86 At the end of 1 year ! Time moves forwards (simple discount): S = 1000 (1+0’09·3/12) = $1 022’50 A sum of a set of dated values, due on different dates, has no meaning. We must take into account the time value of money, which means we have to replace all the dated values by equivalent dated values, due on the same date. Focal date is the particular date at which amounts of money payable at different times can only be compared Mathematics of Finance 9 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A person owes $300 due in 3 months and $500 due in 8 months. The lender agrees to allow the person to pay off theses two debts with a simple payment. What single payment a) now; b) in 6 months; c) in 1 year will liquidate these obligations if money is worth 8% simple interest? EXAMPLE.- Debts of $500 due in 20 days ago and $400 due in 50 days are to be settled by a payment of $600 now and a final payment 90 days from now. Determine the value of the final payment at a simple interest rate of 11% with a focal date at the present. Mathematics of Finance 10 5 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A person owes $300 due in 3 months and $500 due in 8 months. The lender agrees to allow the person to pay off theses two debts with a simple payment. What single payment a) now; b) in 6 months; c) in 1 year will liquidate these obligations if money is worth 8% simple interest? a) P = 300 (1+0’08·3/12)-1 + 500 (1+0’08·8/12)-1 = $768’80 b) P = 300 (1+0’08·3/12) + 500 (1+0’08·2/12)-1 = $799’42 c) P = 300 (1+0’08·9/12) + 500 (1+0’08·4/12) = $831’33 EXAMPLE.- Debts of $500 due in 20 days and $400 due in 50 days are to be settled by a payment of $600 now and a final payment 90 days from now. Determine the value of the final payment at a simple interest rate of 11% with a focal date at the present. 500 (1+0’11·20/365)-1+400 (1+0’11·50/365)-1 = 600+X·(1+0’11·90/365)-1 503’01 + 394’06 = 600 + 0’9736 X ! X = $35’13 Mathematics of Finance 11 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A person borrows $1000 at 6% simple interest. She is to repay the debt with three equal payments, the first at the end of 3 months, the second at the end of 6 months, and the third at the end of 9 months. Determine the size of the payments. Put the focal date at the present. EXAMPLE.- A woman owes $3000 in 4 months with simple interest at 8% and another $4000 is due in 10 months with simple interest at 7%. These two debts are to be replaced with a single payment due in 8 months. Determine the value of the single payment if money is worth 6’5% simple interest using the end of 8 months as the focal date. Mathematics of Finance 12 6 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A person borrows $1000 at 6% simple interest. She is to repay the debt with three equal payments, the first at the end of 3 months, the second at the end of 6 months, and the third at the end of 9 months. Determine the size of the payments. Put the focal date at the present. 1000 = X (1+0’06·3/12)-1 + X (1+0’06·6/12)-1 + X (1+0’06·9/12)-1 1000 = 0’98522X + 0’97087X + 0’95694X ! X = $343’28 EXAMPLE.- A woman owes $3000 in 4 months with simple interest at 8% and another $4000 is due in 10 months with simple interest at 7%. These two debts are to be replaced with a single payment due in 8 months. Determine de value of the single payment if money is worth 6’5% simple interest using the end of 8 months as the focal date. First Debt: 3000 (1+0’08·4/12) (1+0’065·4/12) = 3146’73 Second Debt: 4000 (1+0’07·10/12) (1+0’065·2/12)-1 = 4187’96 Single payment = 3146’73 + 4187’96 = $7334’69 Mathematics of Finance 13 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A person borrows $1000 to be repaid with two equal instalments, one in 6 months, the other at the end of 1 year. What will be the size of these payments if the interest rate is 8% and the focal date is at the present? EXAMPLE.- Mrs. Adams borrows $2000 at 14%. He is to repay the debt with four equal payments, one at the end of each 3-month period during 1 year. Determine the size of the payments given a focal date at the present time. Mathematics of Finance 14 7 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A person borrows $1000 to be repaid with two equal instalments, one in 6 months, the other at the end of 1 year. What will be the size of these payments if the interest rate is 8% and the focal date at the present time? 1000 = X (1+0’08·6/12)-1 + X (1+0’08·1)-1 1000 = 0’961538X + 0’925926X ! X = $529’81 EXAMPLE.- Mrs. Adams borrows $2000 at 14%. He is to repay the debt with four equal payments, one at the end of each 3-month period during 1 year. Determine the size of the payments given a focal date at the present time. 2000 = X(1+0’14·3/12)-1 +X(1+0’14·6/12)-1 +X(1+0’014·9/12)-1 +X(1+0’14·1)-1 = 0’966184X + 0’934579X + 0’904977X + 0’877193X = 3’682933X ! X = $543’05 15 Mathematics of Finance SIMPLE INTEREST AND SIMPLE DISCOUNT The calculation of present (or discounted) values over durations of less than one year is sometimes based on simple discount rate (d). In this situation, discount D is calculated on the final balance S and is paid at the beginning of the term t (whereas in most financial transactions, interest I is calculated on the beginning balance P and is paid at the end of the term t). Use years of 360 days. The simple discount D on an amount S for t years at the discount rate d is calculated by means of the formula: D = S·d·t And the discounted value P of S is given by: P = S-D = S (1-d·t) Mathematics of Finance 16 8 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A person takes out a discounted loan with a face value of $500 for 6 months from a lender who charges a 9’5% simple discount rate. a) What is the discount, and how much money does the borrower receive? b) What size loan should the borrower ask for if he wants to receive $500 cash? 17 Mathematics of Finance SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- A person takes out a discounted loan with a face value (future value) of $500 for 6 months from a lender who charges a 9’5% simple discount rate. a) What is the discount, and how much money does the borrower receive? b) What size loan should the borrower ask for if he wants to receive $500 cash? a) D = 500·0’095·6/12 = $23’75 P = 500 – 23’75 = 500·(1-0’095·6/12) = $476’25 b) 500 = S (1-0’095·6/12) ! S = $524’93 Mathematics of Finance 18 9 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- Calculate the discounted value of $1000 due in 1 year: a) at a simple interest rate of 7%; b) at a simple discount rate of 7%. EXAMPLE.- If $1200 is the present value of $1260 due at the end of 9 months, determine a) the annual simple interest rate, and b) the annual simple discount rate. 19 Mathematics of Finance SIMPLE INTEREST AND SIMPLE DISCOUNT EXAMPLE.- Calculate the discounted value of $1000 due in 1 year: a) at a simple interest rate of 7%; b) at a simple discount rate of 7%. a) P = 1000 (1+0’07·1)-1 = $934’58 b) P = 1000 (1-0’07) = $930 Note the difference between the discounted value at a simple interest rate and the discounted value at a simple discount rate. We can conclude that a given simple discount rate results in a larger money return to a lender than the same simple interest rate. EXAMPLE.- If $1200 is the present value of $1260 due at the end of 9 months, determine a) the annual simple interest rate, and b) the annual simple discount rate. a) 1200 = 1260 (1+r·9/12)-1 ! r = 6’67% simple interest rate b) 1200 = 1260 (1-d·9/12) ! d = 6’35% simple discount rate. Mathematics of Finance 20 10 09/09/2018 SIMPLE INTEREST AND SIMPLE DISCOUNT SUMMARY S : accumulate value of P at the end of t years at a simple interest rate r is given by P (1+r·t). P : discounted value of S due in t years at a simple interest rate r is given by S (1+r·t)-1 P : discounted value of S due in t years at a simple discount rate d is given by S (1-d·t). Two rates are equivalent if they lead to the same accumulated value of a fixed sum of money over the same period of time. Mathematics of Finance 21 11
