Compound Interest Calculator

Watch a starting balance grow with compound interest and optional recurring contributions over any horizon.

All math runs in your browser — nothing is uploadedReviewed & updated: Methodology
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$
%
Yr
Compounding frequency
Result breakdownContributed: 58,000 (40.1%); Interest: 86,572.72 (59.9%)
Future value
$144,572.72
Total contributed$58,000.00
Interest earned$86,572.72
Future value$144,572.72
Simple interest is a straight line. Compound interest bends upward because every period earns on the previous period's growth.

What a compound interest calculator does

A compound interest calculator simulates one of the most consequential ideas in finance: interest that itself earns interest. Feed it a starting balance, an annual rate, how often the interest is credited (daily, monthly, quarterly, yearly), a time horizon, and — if you like — a regular contribution. It returns the future value, the total interest earned, and the growth curve. It's the tool behind every retirement projection, every high-yield savings advertisement, and every honest personal-finance conversation about time.

The reason it matters is arithmetic. A dollar earning 8% a year for 40 years becomes not $4.20 (simple interest) but $21.72 (compound). The difference isn't twice as much or three times as much — it's five times as much, and it grows the further out you look. That gap is the entire case for starting early.

The formula, explained

A is future value; P is principal; r is the annual rate as a decimal; n is compounding periods per year; t is years.

The intuition: each period, the balance is multiplied by (1 + r/n). Do that nt times and you get exponential growth. Increase n (compound more often) and the number grows, but with diminishing returns — the gap between annual and monthly compounding is real; between monthly and daily, barely visible; between daily and continuous, invisible for most practical rates.

Worked example: $10,000 for 30 years at 7%

Principal P = $10,000, annual rate r = 0.07, monthly compounding n = 12, time t = 30 years. A = 10,000 × (1 + 0.07/12)360$81,164.97. Total interest earned: $71,164.97 — more than seven times the original deposit, without a single additional dollar added.

YearsFuture valueInterest earnedMultiple
5$14,176$4,1761.4×
10$20,097$10,0972.0×
20$40,387$30,3874.0×
30$81,165$71,1658.1×
40$163,146$153,14616.3×
Same $10,000, same 7%, different time horizons

Notice the acceleration: the last decade adds more absolute dollars than the first thirty combined. This is why financial planners preach starting in your twenties even at small amounts — the tail of the curve is where the wealth actually is.

How to use this calculator

  1. Enter your initial deposit. Zero is fine if you're starting fresh with contributions only.
  2. Enter the annual interest rate. For a savings account, use the APY. For an investment projection, use a realistic long-run return — historically around 7% real (after inflation) for a diversified stock portfolio.
  3. Choose a compounding frequency. Match the account's actual behavior — most U.S. savings accounts compound daily and credit monthly; CDs compound monthly or quarterly.
  4. Set your time horizon. Model the same plan at 10, 20, and 30 years to see the exponential tail.
  5. Optionally add a recurring contribution — monthly or annual. This is where regular saving crosses paths with compounding.
  6. Read the future value, the total contributed, and the total interest. The interest bar growing past the contribution bar is the moment your money starts working harder than you do.

Common scenarios and edge cases

Monthly contributions (dollar-cost averaging)

$500/month at 7% for 30 years accumulates to about $609,000, of which only $180,000 came out of your pocket. This is the entire case for automated IRA and 401(k) contributions — the compounding does most of the work if you show up every month.

The Rule of 72

Divide 72 by the annual return to estimate the doubling time. At 6%, money doubles in 12 years; at 9%, in 8 years. It's a mental shortcut for the same exponential the calculator is running exactly.

Real returns and inflation

Nominal returns lie to you over long horizons. If the calculator projects $1M in 40 years at 7%, at 3% average inflation that's about $306,000 in today's purchasing power. Either subtract inflation from your rate (a 7% nominal / 3% inflation input becomes 4% real) or read the output as a nominal figure and mentally discount it.

Continuous compounding

The limit as compounding frequency approaches infinity is A = P·ert. For the 7% / 30-year example, continuous compounding lands at $81,660 vs $81,165 monthly — a $495 difference on $80K. Elegant math, tiny practical impact.

Mistakes to avoid

  • Confusing APR and APY. A 5% APR compounded daily is a ~5.13% APY. Advertisements usually quote whichever number sounds better.
  • Ignoring fees. A 1% annual fund fee at 7% real returns eats about 20% of your ending wealth over 30 years. Compounding cuts both ways.
  • Modeling with unrealistic rates. 15% annualized isn't a plan; it's a fantasy. Use historical averages, not the last two great years.
  • Ignoring taxes. Compounding in a Roth IRA is tax-free forever; in a taxable brokerage, dividends and capital gains are taxed as you go, meaningfully reducing the effective rate.
  • Confusing arithmetic and geometric average return. A portfolio that gains 50% then loses 33% averages 8.5% arithmetically but is dead flat — the compound (geometric) average is 0%.

Compounding in the real world

Every U.S. deposit account regulated by the FDIC discloses APY under Regulation DD precisely so consumers can compare compounded rates directly. Retirement accounts — 401(k)s, traditional and Roth IRAs — get their power not from magic returns but from decades of tax-advantaged compounding on regular contributions. The S&P 500's long-run real return (after inflation) has averaged roughly 7% since 1928; that's the number professional planners plug into decades-long projections, not the current-year headline return.

Compounding runs the other way, too. Credit-card debt at 22% APR compounded daily is the same math in reverse — every dollar of interest becomes principal that earns more interest next month. The line often attributed to Einstein — "compound interest is the eighth wonder of the world; he who understands it, earns it; he who doesn't, pays it" — is apocryphal, but the observation isn't.

Pair this with the Retirement Calculator for goal-based projections, the Loan Calculator to see compounding as a cost, and the Mortgage Calculator to compare paying down debt against investing the same monthly cash flow.

Glossary

Principal
The original amount deposited or invested before any interest accrues.
APR
Annual Percentage Rate — the stated yearly interest rate before compounding effects.
APY
Annual Percentage Yield — the effective yearly return once compounding is included.
Compounding frequency
How often earned interest is credited back to the balance (daily, monthly, quarterly, annually, or continuously).
Future value
The projected balance at the end of the compounding horizon.
Rule of 72
A shortcut: divide 72 by the annual return rate to estimate the number of years for the balance to double.
Real return
The nominal return minus inflation — what your money actually gained in purchasing power.
Continuous compounding
The limiting case where interest compounds an infinite number of times per year, described by A = P·e^(rt).

How it works

FV = P(1+r/n)^(nt) + PMT · ((1+r/n)^(nt) − 1)/(r/n).

Example

$10,000 at 7% for 20 years compounded monthly, $200/mo contributions → ≈ $144,000.

Frequently asked questions

What is compound interest?
Interest that itself earns interest each period — the effect grows exponentially over time.
Does compounding frequency matter?
A little. Daily vs. monthly at the same APR differs by a small amount; the term and rate matter more.
Are the returns guaranteed?
No — this is a math projection. Real investment returns fluctuate.
What is the rule of 72?
Divide 72 by the annual rate to estimate the years to double your money.

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