Capital Growth Calculator (Compound vs. Simple Interest)
Calculates the final value of your investment over time – including a comparison between compound interest (with selectable compounding frequency) and simple interest. Runs entirely locally in the browser.
Inputs
1000, 1,000.50, 1000 $7, 7%, 0.07Results
Tip: Hover over the bars (or focus via Tab) to see the values per year.
Growth Over Time
Chart is horizontally scrollable for many years. Updates are animated (CSS transitions).
Show Annual Values (Table)
| Year | Compound Interest | Simple Interest | Advantage |
|---|
Compound vs. Simple Interest Calculator: The Real Cost of Compounding Frequency
This calculator compares compound and simple interest growth side by side, and shows how compounding frequency (daily, monthly, quarterly, annual) affects your final balance. It generates an animated growth chart and a full year-by-year data table — making the counterintuitive power of compound interest visually tangible, and explaining why it works for savers and against borrowers.
Side-by-Side Growth Chart
Animated dual-line chart: compound interest (exponential curve) vs. simple interest (straight line). The gap between them — the "compound bonus" — is highlighted and quantified in euros at every year on hover.
Compounding Frequency Comparison
Compare daily, monthly, quarterly, and annual compounding on the same chart. Shows the marginal gain from more frequent compounding — surprisingly small in practice, but visible at high rates or long periods.
Monthly Contribution Mode
Add regular monthly contributions to see how steady investing amplifies compounding — the most powerful wealth-building combination. Shows total contributions vs. interest earned over the period.
Full Data Table
Year-by-year breakdown: opening balance, interest earned that year, cumulative interest, closing balance — for both compound and simple methods. Downloadable as CSV.
€10,000 at 7% Annual Return: Simple vs. Compound Interest Over Time
| Year | Simple interest | Compound (annual) | Compound (monthly) | Compound bonus vs. simple |
|---|---|---|---|---|
| 5 years | €13,500 | €14,026 | €14,176 | +€526 / +€676 |
| 10 years | €17,000 | €19,672 | €20,097 | +€2,672 / +€3,097 |
| 20 years | €24,000 | €38,697 | €40,388 | +€14,697 / +€16,388 |
| 30 years | €31,000 | €76,123 | €81,065 | +€45,123 / +€50,065 |
| 40 years | €38,000 | €149,745 | €162,450 | +€111,745 / +€124,450 |
The critical insight: At 7% over 40 years, simple interest yields €38,000. Compound interest yields nearly €150,000 — almost 4× more, despite identical principal and rate. The extra €111,000 is entirely the result of earning interest on previously earned interest. This is why Albert Einstein allegedly called compound interest "the eighth wonder of the world" — the effect only becomes dramatic beyond 20 years, which is why starting early is by far the most important variable in long-term investing.
Quick Doubling Times: The Rule of 72
| Annual return rate | Years to double (Rule of 72) | Exact years (compound) | Context |
|---|---|---|---|
| 1% | 72 years | 69.7 years | German savings account 2026 (low end) |
| 2% | 36 years | 35.0 years | ECB inflation target / German Tagesgeld |
| 4% | 18 years | 17.7 years | Bonds / conservative allocation |
| 7% | 10.3 years | 10.2 years | Global equity ETF (MSCI World historical avg.) |
| 10% | 7.2 years | 7.3 years | US equity (S&P 500 historical avg.) |
| 15% | 4.8 years | 4.96 years | High-growth portfolio / exceptional years |
| 72% (extreme) | 1 year | 1.0 year | Illustrates why rule breaks down at extremes |
Rule of 72: Divide 72 by the annual interest rate to get the approximate number of years for money to double. Example: at 6%, 72 ÷ 6 = 12 years. Accurate to within 1% for rates between 4% and 20%; less accurate outside this range. A useful mental model for quickly evaluating whether an investment claim is realistic.
Frequently Asked Questions
Why does compounding frequency matter less than most people think?
The difference between annual and daily compounding is much smaller than intuition suggests. The effective annual rate (EAR) formula is: EAR = (1 + r/n)^n − 1, where r is the nominal rate and n is the number of compounding periods per year. At 5% nominal: annual compounding = 5.00% EAR; monthly = 5.116% EAR; daily = 5.127% EAR. The difference between monthly and daily compounding is only 0.011 percentage points — on €10,000 over 10 years, this is approximately €71 extra. The difference between annual and monthly compounding (0.116 percentage points) yields about €650 extra over 10 years. For most investors, optimising compounding frequency matters far less than finding a slightly higher annual rate, investing consistently, avoiding high fees, and starting early.
Where does compound interest work against you?
Compound interest is exactly as powerful for debt as it is for savings — but now working against you. Consumer credit cards in Germany typically charge 12–25% APR, compounding monthly. A €5,000 credit card balance at 18% APR, making only minimum payments of 2% of balance per month: it takes approximately 30 years to repay and costs over €9,000 in interest — nearly double the original balance. BNPL (buy now, pay later) services often show 0% interest but charge retroactive high-rate compound interest if the balance is not cleared within the promotional period. The compound interest calculator works in reverse for debt: enter your loan balance as principal, your APR as the rate, and calculate the total interest cost — a sobering exercise that motivates faster repayment.
What is the difference between APR and AER (or EAER)?
APR (Annual Percentage Rate, in German: effektiver Jahreszins) is the standardised cost of borrowing per year, including all mandatory fees — it is the legally required comparison metric for loans in Germany and the EU. For savings, the equivalent concept is AER (Annual Equivalent Rate) or in German: effektiver Jahreszins für Sparer — the actual annual return after compounding effects. The distinction: a savings account offering 3% nominal interest compounded monthly has an AER of 3.042%. A loan at 6% nominal compounded monthly has an APR of 6.168%. German law requires banks to show the effektiver Jahreszins on both loan offers and savings products, making comparison straightforward. Always compare using APR/AER rather than nominal rates when evaluating financial products.
How much does monthly investing boost the compound effect compared to annual lump-sum investing?
Investing monthly (e.g., €500/month) vs. investing the same amount as a single annual lump sum (€6,000/year at year-end) has two effects. First, the timing effect: monthly contributions start earning returns earlier in the year — on average 6 months earlier than the year-end lump sum. At 7% annual return, this timing advantage is worth approximately 3.5% extra return on each year's contribution (half of 7%). Second, the psychological effect: monthly investing creates habit and removes the temptation to "time" the market by waiting for a dip that may not come. The calculator shows both scenarios side by side. For a 25-year investment horizon at 7% return, monthly investing of €500 generates approximately 2–3% more total return than equivalent annual lump-sum investing — a meaningful but not dramatic difference.
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