What is the difference between simple and compound interest?

Simple interest is calculated only on the original principal. Compound interest is calculated on the principal plus all previously accumulated interest — meaning interest earns interest. For a $10,000 deposit at 5% for 10 years: simple interest gives $5,000; annual compounding gives $6,288.95. That $1,288.95 gap is the compounding effect.

How does compounding frequency affect my returns?

The more frequently interest compounds, the higher your effective return. At a 6% nominal annual rate, annual compounding yields exactly 6.00% EAR, monthly compounding yields 6.168% EAR, and daily compounding yields 6.183% EAR. The differences seem small, but over 20–30 years on large balances, daily compounding can add thousands of dollars compared to annual compounding.

What is the Effective Annual Rate (EAR)?

The Effective Annual Rate (EAR) — also called Annual Equivalent Rate (AER) — is the true annual return after accounting for compounding within the year. It is calculated as (1 + r/n)ⁿ − 1, where r is the nominal rate and n is the number of compounding periods per year. Banks are required to disclose APY (Annual Percentage Yield), which is the same as EAR. Always compare APYs — not nominal rates — when shopping savings accounts.

What does the Rule of 72 tell me?

The Rule of 72 is a mental shortcut: divide 72 by your annual interest rate to estimate how many years it takes your money to double. At 6%, money doubles in approximately 12 years. At 9%, roughly 8 years. It is an approximation — the exact answer requires the compound interest formula — but it is accurate within 1–2% for rates between 3% and 15%, making it genuinely useful for quick mental estimates.

How accurate is this interest calculator?

The calculator uses the exact mathematical formulas used by financial institutions. For compound interest, it applies A = P(1 + r/n)^(nt) precisely. Results will match your bank's projections as long as the interest rate remains fixed and no withdrawals are made. Variable-rate products, tiered rates, or fees applied to the balance will cause the actual result to differ.

Does the calculator account for inflation?

No — this calculator shows nominal (face-value) growth, not real (inflation-adjusted) growth. To estimate real returns, subtract the expected inflation rate from your interest rate before entering it. For example, if your savings account pays 4.5% and inflation runs at 2.5%, enter 2.0% to see the inflation-adjusted growth in today's purchasing power.

When should I use simple interest instead of compound interest?

Simple interest applies to most short-term personal loans, auto title loans, and some US Treasury securities. It is also used for calculating interest on overdue invoices (trade credit). Compound interest applies to savings accounts, certificates of deposit, credit cards, mortgages, and most investment accounts. If your bank or lender does not specify, assume compound interest — it is the default for almost all modern financial products.

How do regular contributions affect compound interest growth?

Regular contributions (often called "periodic deposits") dramatically accelerate growth by continuously adding new principal for compounding to work on. This is the mathematical principle behind retirement accounts. Even modest monthly contributions of $100–$200 added to an existing balance can more than double the terminal value over a 30-year period compared to a lump-sum deposit with no further contributions.

What is the difference between APR and APY?

APR (Annual Percentage Rate) is the nominal rate without accounting for within-year compounding — it is often used for loans. APY (Annual Percentage Yield) includes the effect of compounding and represents the true annual return — it is required on savings accounts in the US. APY is always equal to or higher than APR for the same nominal rate. When comparing accounts, APY gives you the accurate apples-to-apples figure.

Interest Calculator — Simple & Compound Interest Calculator

How to Use the Interest Calculator

Select Compound or Simple interest using the toggle at the top of the calculator. Enter your principal amount, annual interest rate, and time period — then choose whether you want the duration in years or months. For compound calculations, select how frequently interest compounds. If you plan to make regular contributions (monthly savings, for example), enter the amount and frequency.

Click Calculate to see your future value, total interest, and a full year-by-year breakdown. The View Year-by-Year Schedule button expands a detailed table showing exactly how your balance grows each period. Click Clear to reset all fields and start a new calculation.

What Is Interest?

Interest is the cost of using borrowed money — or, from the lender's perspective, the reward for providing it. It is expressed as a percentage of the principal and accrues over time according to rules set by the loan or savings agreement. Every mortgage payment, every savings account yield, and every credit card charge is governed by the same underlying principle.

The concept dates to ancient Mesopotamia, where clay tablets from around 2000 BCE record interest-bearing grain loans. The modern mathematical treatment of compound interest was formalized by Swiss mathematician Jacob Bernoulli in 1683, when he discovered the constant e (approximately 2.71828) while studying continuously compounding growth.

Simple vs. Compound Interest: Why It Matters

Simple interest accrues only on the original principal. If you deposit $5,000 at 4% simple interest for 3 years, you earn $200 per year — exactly $600 total, regardless of when you earn it. The math never changes.

Compound interest also earns interest on previously accumulated interest. That same $5,000 at 4% compounded monthly for 3 years yields $635.12 — not $600. The difference looks modest over 3 years. Over 30 years, the gap becomes enormous: $16,310.19 versus $11,000. That extra $5,310.19 is pure compounding.

Albert Einstein reportedly called compound interest "the eighth wonder of the world." Whether he said it or not, the arithmetic is undeniably powerful — and it works against you just as aggressively on debt.

When Simple Interest Applies

Simple interest is used for most short-term personal loans, some auto loans, US Treasury bills, and trade credit agreements. It is also used when calculating interest on overdue invoices and in certain construction loan draw structures. If a lender quotes a flat fee rather than a periodic rate, they are effectively quoting simple interest.

When Compound Interest Applies

Compound interest is the standard for savings accounts, certificates of deposit (CDs), money market accounts, 401(k) and IRA growth, mortgages, credit cards, and most investment vehicles. Credit cards typically compound daily — which is why carrying a balance is so expensive.

The Formula Explained

For simple interest, the logic is linear: interest equals principal multiplied by the annual rate multiplied by time in years. The formula is:

I = P × r × t | A = P + I

Where P is the principal, r is the annual rate as a decimal, and t is time in years.

For compound interest, each compounding period adds interest to the running balance, and the next period's interest is calculated on that new, higher balance:

A = P × (1 + r/n)^(n×t)

Where n is the number of compounding periods per year (12 for monthly, 365 for daily), and t is time in years. Total interest is simply A − P.

Effective Annual Rate (EAR)

Because compounding frequency affects the true annual yield, comparing accounts on their nominal rate alone is misleading. The Effective Annual Rate (EAR) — identical to what US banks call APY — normalises everything to a single annual figure:

EAR = (1 + r/n)ⁿ − 1

A 6% nominal rate compounded daily produces an EAR of 6.183%. That 0.183% gap may seem trivial, but on a $100,000 balance, it represents an extra $183 per year — compounded, year after year.

Adding Regular Contributions

When you add periodic contributions (monthly savings, for example), the future value formula expands. Each contribution becomes its own mini-investment, compounding for the remaining time in the period. For a contribution PMT made at the end of each period:

FV = P×(1+r/n)^(n×t) + PMT × [ (1+r/n)^(n×t) − 1 ] / (r/n)

This is the same formula used by retirement planning tools at every major brokerage. The calculator handles the maths automatically — just enter your contribution amount and frequency.

Step-by-Step Example

Marcus is 32 years old and wants to understand how much his $8,500 emergency fund will grow if he moves it into a high-yield savings account paying 4.75% APR, compounded monthly, and adds $150 each month. He plans to leave it untouched for 7 years.

Entering these values — Principal: $8,500, Rate: 4.75%, Term: 7 years, Compounding: Monthly, Contribution: $150/month — the calculator returns:

Future Value: $29,308.47 — made up of $8,500 principal, $12,600 in total contributions (84 × $150), and $8,208.47 in interest. Marcus's $21,100 invested grows to $29,308.47. The EAR is 4.848%, marginally higher than the nominal 4.75% due to monthly compounding.

Now compare to simple interest: the same $8,500 at 4.75% simple for 7 years plus $150/month simple would yield only $26,075. The compounding effect added an extra $3,233.47 — entirely from interest earning interest.

How to Read Your Results

Future Value is the total balance at the end of the period — what your account would hold if the rate held steady and no withdrawals were made.

Total Interest is the cost of borrowing or the reward for saving — everything above the money you deposited. For debt, minimising this should be the goal. For savings and investments, maximising it is.

Effective Annual Rate (EAR) is the most honest single number for comparing two accounts or loans. Always use it when shopping. A 5% rate compounded daily beats a 5.05% rate compounded annually.

The year-by-year schedule is where the compounding story becomes visceral. Scroll through it and notice: interest earned in Year 1 is modest. By Year 10 or 15, the annual interest earned dwarfs the original principal. That acceleration is the fundamental reason long investment horizons are so powerful.

Factors That Affect Your Results

Compounding frequency has a surprisingly large effect over long periods. Switching from annual to daily compounding at the same nominal rate can add hundreds of dollars per $10,000 over a decade.

Inflation is not accounted for here. A 5% return during 3% inflation represents only 2% real growth in purchasing power. For long-horizon projections — retirement savings, college funds — always subtract expected inflation from your rate to see real returns.

Taxes on interest income reduce effective yield. In most jurisdictions, interest earned in non-sheltered accounts is taxed as ordinary income. A 5% yield taxed at 22% produces only 3.9% net. Tax-advantaged accounts (401k, IRA, ISA) eliminate this drag.

Variable rates change the outcome significantly. This calculator assumes a fixed rate throughout the entire period. If your savings account adjusts quarterly or your loan is on a variable rate, actual results will differ.

The Rule of 72 — A Mental Shortcut

Divide 72 by your annual interest rate to estimate the number of years required to double your money. At 4%, money doubles in approximately 18 years. At 8%, roughly 9 years. At 12%, about 6 years.

The Rule of 72 is accurate to within 1–2% for rates between 3% and 15%, making it genuinely useful for quick sanity-checks. The calculator shows your exact Rule of 72 estimate alongside your results so you can compare the approximation to the precise answer.

Common Mistakes to Avoid

Confusing APR and APY. Banks advertise APY on savings (higher number, sounds better) and APR on loans (lower number, sounds cheaper). They are not the same. Always compare using the same metric — APY for both — to make a fair comparison.

Using monthly rates as annual rates. A credit card that charges 1.5% per month is not 18% per year — it is 19.56% APY due to compounding. Always annualise correctly.

Ignoring the time dimension. Doubling the rate does not double the final balance when compounding is involved. Time is the most powerful variable. Starting 5 years earlier matters more than finding a rate 1% higher.

Treating projections as guarantees. This calculator models a mathematical scenario. Real markets, variable rates, and life events ensure actual outcomes will differ. Use projections for planning direction, not precise targets.

When to Talk to a Financial Professional

If you are comparing savings accounts for a standard emergency fund or planning a straightforward CD, this calculator gives you everything you need. For anything more complex, professional guidance adds real value.

Consult a Certified Financial Planner (CFP) when you are making decisions about retirement accounts, large lump-sum investments, or wealth transfer strategies. Consult a CPA or tax adviser when the interest income is substantial enough to affect your tax bracket or when you are deciding between taxable and tax-sheltered accounts.

For loan decisions where the total interest exceeds $10,000, bring your own interest calculations to the conversation. Knowing your numbers before the meeting is one of the most underrated financial habits there is.

Interest Calculator