Interest Calculator — Calculate Compound Interest & Growth
Enter principal, rate, and time — see how compound interest grows your money year by year. Compare daily vs monthly vs annual compounding. The formula is A = P(1 + r/n)^(nt), but you don't need to remember that. Just plug in numbers.
Calculate compound interest and investment growth
Calculate compound interest and investment growth
Compound interest is interest calculated on the initial principal and also on the accumulated interest of previous periods.
A = P(1 + r/n)nt
Where:
- A = Final amount
- P = Principal (initial investment)
- r = Annual interest rate (decimal)
- n = Number of times interest is compounded per year
- t = Number of years
The more frequently interest is compounded, the faster your investment grows. This is the power of compound interest - often called "the eighth wonder of the world" by Albert Einstein.
Compound Interest: The Math Behind "Money Making Money"
Simple interest: you earn interest only on the original principal. $10,000 at 5% simple interest = $500/year, every year, forever. After 10 years: $15,000.
Compound interest: you earn interest on principal PLUS previously earned interest. Same $10,000 at 5% compounded annually: Year 1 = $10,500, Year 2 = $11,025 (5% of $10,500, not $10,000), Year 10 = $16,289. That's $1,289 more than simple interest — free money from compounding.
The formula: A = P(1 + r/n)^(nt). P = principal, r = annual rate (as decimal), n = compounding frequency per year, t = years. Daily compounding (n=365) gives slightly more than monthly (n=12) which gives slightly more than annual (n=1). The difference matters more at higher rates and longer periods.
The Rule of 72: divide 72 by your interest rate to estimate doubling time. At 6%, money doubles in ~12 years. At 8%, ~9 years. At 10%, ~7.2 years. This is why starting early matters so much — each doubling period multiplies everything that came before.
Reality check: this calculator shows theoretical growth at a fixed rate. Real investments have variable returns, fees (which compound against you), taxes, and inflation that erodes purchasing power. A 7% return with 2% inflation is really 5% in purchasing power.
How to Use
- Enter your starting amount (principal).
- Enter the annual interest rate as a percentage.
- Enter the time period in years.
- Choose compounding frequency: daily, monthly, quarterly, or annually.
When You'll Use This
Projecting savings account growth
You have $20,000 in a high-yield savings account at 4.5% APY. How much will it be in 5 years without adding anything? Answer: $24,932. The $4,932 in interest earned more interest along the way — that's compounding at work.
Comparing investment scenarios
Is it better to invest $10,000 at 7% for 20 years, or $20,000 at 4% for 20 years? First: $38,697. Second: $43,822. The higher principal wins despite the lower rate — but if you can get 7% on $20,000, that's $77,394. Rate AND principal both matter.
Understanding the cost of waiting
Investing $10,000 at age 25 vs age 35 (both at 7% until age 65): Starting at 25 = $149,745. Starting at 35 = $76,123. Ten years of delay costs you $73,622 — more than 7x your original investment. Time is the most powerful variable in compounding.
Calculating CD or bond returns
A 3-year CD offers 4.8% compounded daily. On $50,000, that's $57,735 at maturity — $7,735 in interest. Compare with a 5-year CD at 4.2%: $61,680 — more total interest ($11,680) but your money is locked up longer.
Things to Know
Compounding frequency matters less than you think
$10,000 at 5% for 10 years: annual compounding = $16,289, monthly = $16,470, daily = $16,487. The difference between annual and daily is only $198 over a decade. The rate and time matter far more than whether it compounds monthly or daily.
This shows gross returns — taxes and fees reduce them
A 5% return taxed at 25% is effectively 3.75%. A fund with 1% annual fees on a 7% return gives you 6% — and that 1% compounds against you over decades. Always factor in taxes and fees for realistic projections.
Inflation erodes purchasing power
If your investment grows 5% but inflation is 3%, your real return is only ~2%. $16,289 in 10 years buys less than $16,289 today. For long-term planning, subtract expected inflation from your rate to see real growth.
The Rule of 72 is your quick mental math tool
72 ÷ interest rate ≈ years to double. At 4%: ~18 years. At 6%: ~12 years. At 8%: ~9 years. At 12%: ~6 years. Works reasonably well for rates between 2% and 20%.
Examples
$10,000 at 5% for 10 years (annual compounding)
A basic savings scenario showing the power of compound interest.
Input
Principal: $10,000 | Rate: 5% | Time: 10 years | Compounding: AnnualOutput
Final: $16,289 | Interest Earned: $6,289 (63% growth)$50,000 at 7% for 20 years (monthly compounding)
A long-term investment scenario — retirement planning.
Input
Principal: $50,000 | Rate: 7% | Time: 20 years | Compounding: MonthlyOutput
Final: $201,898 | Interest Earned: $151,898 (304% growth)Features
- Compound interest with daily, monthly, quarterly, or annual compounding
- Year-by-year breakdown showing balance growth
- Shows total interest earned and percentage growth
- Supports any principal, rate, and time period
- No signup or personal information required
- Runs 100% in your browser — financial data stays private
Frequently Asked Questions
What's the difference between simple and compound interest?
Simple interest: calculated only on the original principal ($10,000 at 5% = $500/year forever). Compound interest: calculated on principal + accumulated interest ($10,000 at 5% = $500 first year, $525 second year, $551 third year...). Over time, compound interest grows exponentially while simple interest grows linearly.
Does compounding frequency really matter?
Less than most people think. $10,000 at 5% for 10 years: annual = $16,289, daily = $16,487. That's only $198 difference over a decade. The interest rate and time period have far more impact. Don't choose a worse investment just because it compounds more frequently.
What is APY vs APR?
APR (Annual Percentage Rate) is the stated rate without compounding. APY (Annual Percentage Yield) includes the effect of compounding. A 5% APR compounded monthly has an APY of 5.12%. Banks advertise APY for savings (looks higher) and APR for loans (looks lower). Always compare APY to APY.
How do I account for regular contributions?
This calculator shows growth of a lump sum. For regular monthly contributions (like 401k or SIP), you need a future value of annuity calculation: FV = PMT × [((1+r)^n - 1) / r]. The combined effect of contributions + compounding is even more powerful than lump sum alone.
Why does starting early matter so much?
Because of exponential growth. At 7%, $10,000 invested for 40 years becomes $149,745. For 30 years: $76,123. For 20 years: $38,697. The last 10 years (30→40) add $73,622 — almost as much as the first 30 years combined. Each additional year of compounding multiplies everything before it.
Tips & Related Workflows
- Calculate monthly loan payments based on your interest rate with our Loan Calculator.
- See a detailed payment schedule with our Amortization Calculator.
- Planning a home purchase? Estimate payments with our Mortgage Calculator.
- Convert currencies to compare international interest rates with our Currency Converter.