Question 1: What is simple interest?

Question 1: What is simple interest?
In business, individuals or companies often borrow money or assets. The lender
charges a fee for the use of the assets. Interest is the fee the lender charges for the use
of the money. The amount borrowed is the principal or present value of the loan.
Simple interest is interest computed on the original principal only. If the present value
PV, in dollars, earns interest at a rate of r for t years, then the interest is
I  PV rt
The future value (also called the accumulated amount or maturity value) is the sum of
the principal and the interest. This is the amount the present value grows to after the
present value and interest are added.
Simple Interest
The future value FV at a simple interest rate r per year is
FV  PV  PV rt
 PV 1  rt 
where PV is the present value that is deposited for t years.
The interest rate r is the decimal form of the interest rate written as a percentage. This
means an interest rate of 4% per year is equivalent to r  0.04 .
In this text, we use the variable names commonly used in finance textbooks. Instead of
writing the present value as the single letter P, we use two letters, PV. Be very careful to
interpret this as a single variable and not a product of P and V. Similarly, the future
value is written FV. This set of letters represents a single quantity, not a product of F
and V. This allows us to use groups of letters to represent quantities that suggest their
If we know two of the quantities in this formula, we can solve for the other quantity. This
formula is also used to calculate simple interest paid on investments or deposits at a
bank. In these cases, we think of the deposits or investment as a loan to the bank with
the interest paid to the depositor.
Example 1
Simple Interest
An investment pays simple interest of 4% per year. An investor deposits
$500 in this investment and makes no withdrawals for 5 years.
a. How much interest does the investment earn over the five-year
Solution Use I  PV rt to compute the interest,
I  500  0.04  5
Set PV = 500, r = 0.04, and t = 5
 100
b. What is the future value of the investment in 5 years?
Solution The future value is computed using FV  PV 1  rt  ,
A  500 1  0.04  5 
Set PV = 500, r = 0.04, and t = 5
 600
Find an expression for the future value if the deposit accumulates
interest for t years. Assume no withdrawals over the period.
Solution In this part, the time t is variable,
FV  500 1  0.04t 
 500  20t
This relationship corresponds to a linear function of t. The vertical
intercept is 500 and the slope is 20. This tells us that the initial
investment is $500 and the accumulated amount increases by $20 per
Figure 1 – The linear function describing the accumulated amount in Example
Example 2
Simple Interest
A small payday loan company offers a simple interest loan to a
customer. They will loan the customer $750. The customer promises to
repay the company $808 in two weeks. What is the annual interest rate
for this loan?
Solution Since there are 52 weeks in a year, the length of this loan is
years. Use the information in the problem in the simple interest formula,
FV  PV 1  rt  , to solve for the rate r:
808  750 1  r  522 
Set FV = 808, PV = 750 and t 
 1  522 r
Divide both sides by 750
Subtract 1 or
 750
from both sides
Multiply both sides by
r  2.01
This decimal corresponds to an interest rate of 201% per year. Because
of such high rates, many states are passing legislation to limit the
interest rates that pay day loan companies charge.