How Compound Interest Works: A Reflection on Judith's Investment Account

How does compound interest affect Judith's investment account?

Judith puts $5000 into an investment account with interest compounded continuously. Which approximate annual rate is needed for the account to grow to $9110 after 30 years?

Understanding Compound Interest in Judith's Investment Account

Compound interest plays a crucial role in determining the growth of Judith's investment account over time. In her case, the interest is compounded continuously, which means that the balance in her account increases exponentially as time goes on.

The approximate annual rate needed for Judith's account to grow to $9110 after 30 years is 5.50% when interest is compounded annually. This rate of return is calculated using the formula A = P(1 + r/n)^nt, where A is the final amount, P is the original amount, r is the interest rate, n is the number of compounding periods in a year, and t is the number of years.

Exploring the Calculation Process

In Judith's case, the equation becomes 9110 = 5000(1 + r)^30, and the solution for r turns out to be 0.055. This can then be expressed as an annual rate of 5.50%. This means that for Judith's investment account to reach $9110 after 30 years, a rate of return of 5.50% is required.

It is important to note that with compound interest, the balance grows faster as the rate of interest increases. Therefore, by choosing an appropriate interest rate, Judith can maximize the growth of her investment account over time.

Understanding how compound interest works is essential for making informed financial decisions and maximizing the potential returns on investments. By grasping the concept and its implications, individuals like Judith can make strategic choices to secure their financial future.