What Is Exponential Growth?
Exponential growth is a pattern of data that shows greater increases with passing time, creating the curve of an exponential function. It follows the formula: V \= S × ( 1 \+ R ) T V=S\\times(1+R)^T V\=S×(1+R)T The current value, V, of an initial starting point subject to exponential growth can be determined by multiplying the starting value, S, by the sum of one plus the rate of interest, R, raised to the power of T, or the number of periods that have elapsed. For example, suppose a population of mice rises exponentially every year starting with two in the first year, then four in the second year, 16 in the third year, 256 in the fourth year, and so on. The application of exponential growth works well in the example of a savings account because the rate of interest is guaranteed and does not change over time. Each year, the lender will apply the interest rate to the sum of the initial deposit, along with any interest previously paid.
What Is Exponential Growth?
Exponential growth is a pattern of data that shows greater increases with passing time, creating the curve of an exponential function. For example, suppose a population of mice rises exponentially every year starting with two in the first year, then four in the second year, 16 in the third year, 256 in the fourth year, and so on. The population is growing to the power of 2 each year in this case.
Understanding Exponential Growth
In finance, compound returns cause exponential growth. The power of compounding is one of the most powerful forces in finance. This concept allows investors to create large sums with little initial capital. Savings accounts that carry a compound interest rate are common examples of exponential growth.
Applications of Exponential Growth
Assume you deposit $1,000 in an account that earns a guaranteed 10% rate of interest. If the account carries a simple interest rate, you will earn $100 per year. The amount of interest paid will not change as long as no additional deposits are made.
If the account carries a compound interest rate, however, you will earn interest on the cumulative account total. Each year, the lender will apply the interest rate to the sum of the initial deposit, along with any interest previously paid. In the first year, the interest earned is still 10% or $100. In the second year, however, the 10% rate is applied to the new total of $1,100, yielding $110. With each subsequent year, the amount of interest paid grows, creating rapidly accelerating, or exponential, growth. After 30 years, with no other deposits required, your account would be worth $17,449.40.
The Formula for Exponential Growth
On a chart, this curve starts slowly, remains nearly flat for a time before increasing swiftly to appear almost vertical. It follows the formula:
V = S × ( 1 + R ) T V=S\times(1+R)^T V=S×(1+R)T
The current value, V, of an initial starting point subject to exponential growth can be determined by multiplying the starting value, S, by the sum of one plus the rate of interest, R, raised to the power of T, or the number of periods that have elapsed.
Special Considerations
While exponential growth is often used in financial modeling, the reality is often more complicated. The application of exponential growth works well in the example of a savings account because the rate of interest is guaranteed and does not change over time. In most investments, this is not the case. For instance, stock market returns do not smoothly follow long-term averages each year.
Other methods of predicting long-term returns — such as the Monte Carlo simulation, which uses probability distributions to determine the likelihood of different potential outcomes — have seen increasing popularity. Exponential growth models are more useful to predict investment returns when the rate of growth is steady.
Related terms:
Accounting
Accounting is the process of recording, summarizing, analyzing, and reporting financial transactions of a business to oversight agencies, regulators, and the IRS. read more
Capital : How It's Used & Main Types
Capital is a financial asset that usually comes with a cost. Here we discuss the four main types of capital: debt, equity, working, and trading. read more
Compound
Compound refers to the ability of a sum of money to grow exponentially over time by the repeated addition of earnings to the principal invested. read more
Compound Interest , Formula, & Calculation
Compound interest is the interest on a loan or deposit that accrues on both the initial principal and the accumulated interest from previous periods. read more
Euler's Constant
Euler's constant is a mathematical constant recurring in analysis and number theory, usually denoted by the lowercase Greek letter gamma (γ). read more
Future Value (FV)
Future value (FV) is the value of a current asset at a future date based on an assumed rate of growth over time. read more
Growth Curve
A growth curve is a visual depiction of the growth of a phenomenon, with the x-axis typically representing time and the y-axis growth. read more
Interest Rate , Formula, & Calculation
The interest rate is the amount lenders charge borrowers and is a percentage of the principal. It is also the amount earned from deposit accounts. read more
Least Squares Criterion
The least-squares criterion is a method of measuring the accuracy of a line in depicting the data that was used to generate it. That is, the formula determines the line of best fit. read more
Monte Carlo Simulation
Monte Carlo simulations are used to model the probability of different outcomes in a process that cannot easily be predicted. read more