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Accurate Future Value Calculator

Future value of money as of any date.

The value of money changes over time. What a dollar buys today is not what it will buy in the future. What the dollar buys in the future is its future value. A future value calculator is a tool that calculates a dollar’s future value.

Future Value Calculator
Future Value Calculator

The Accurate Future Value Calculator answers the question, "What will be the value of an amount at some future date, assuming "X" rate of return?" This calculator allows you to select any start and ending date.

Click to Try It Now!

Two factors affect the dollar’s FV (or any currency’s FV):

  • inflation (or deflation)
  • investment return

The higher the inflation rate, the less the dollar will buy. The higher the investment rate of return (or interest rate)—or the greater the rate of deflation—the more the dollar will buy.

This future value calculator calculates the FV of an amount or asset after an exact number of days, assuming any rate of return (tested up to 99% per year) for 12 compounding frequencies, plus simple interest.

Because this calculator is date-sensitive and supports multiple compounding options, it is suitable for calculating the balance of a debt when the debtor has made no payments. More details appear below the calculator…

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$ : MM/DD/YYYY
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More About Future Value

The future value calculator usually calculates a nominal future value. This means the calculated amount reflects investment gains or interest earned on the money. A nominal future value does not account for inflation.

If you want to know the real future value, you can approach it in one of two ways.

What About Inflation?

If you want to know the purchasing power of the original amount after inflation, subtract an estimated inflation rate from the annual interest rate. For example, if your annual interest rate is 4.5% and you estimate that inflation will average 2% per year, then instead of entering 4.5% as your rate of return, enter 2.5%. The calculated FV will represent the real future value.

rate of return or interest rate
In this example, the interest rate and the rate of return mean the same thing.

This terminology can be misleading. Economists call this the real future value, but it is only an estimated real future value, because we can only estimate the future rate of inflation.

Nonetheless, the real future value is a more accurate measure than the nominal future value, which does not consider inflation at all.

If you want to be explicitly compensated for inflation, add the inflation rate to the annual interest rate. For example, if someone owed you $2,000 for five and a half years and agreed to compensate you for 2% inflation in addition to a 4% interest rate, you would add the inflation rate to the rate of return.

The result reflects the effect of inflation. Another way to state this is: if I want to earn a real 4.5% gain on my investment, how much must I also earn to offset the loss of value from inflation?

The future value calculator makes all of these calculations straightforward.

Future Value Equations

In this section:

Future Value Equation – Daily Compound Interest

Future value equation, daily compounding interest.
Fig. 1 – Future Value with daily compound interest equation. Source:Wikipedia, licensed underCC BY-SA 4.0.
Step-by-step solution future value daily compounding.

Fig. 2 – Step-by-step solution of the Future Value Daily Compound Interest equation.

Variables: PV = 10,000; R = 10%; d = 365; n = 730.

Variable Definitions

R
Nominal annual interest rate.
d
Days in a year, typically 360 or 365.
i
Daily interest rate.
PV
Present value — the principal amount (initial investment).
n
Number of days in the term.

Calculation Steps Explained – Fig. 2

What is the future value of $10,000 invested for two years, assuming daily compounding at a 10% annual interest rate?

To calculate the future value (FV) of an investment with daily compounding, use the formula FV = PV × (1 + i)n, where i = R ÷ d and n is the number of days in the term:

  1. Calculate the daily interest rate: i = 0.10 ÷ 365 ≈ 0.0002739726027….
  2. Substitute the values into the formula: FV = 10,000 × (1 + 0.0002739726027…)730.
  3. Simplify the base: 1 + 0.0002739726027… ≈ 1.0002739726027….
  4. Raise the base to the 730th power: (1.0002739726027…)730 ≈ 1.22136930164….
  5. Multiply by the principal: 10,000 × 1.22136930164… ≈ 12,213.69.

The investment grows to $12,213.69 after two years of daily compounding at a 10% annual interest rate.

Step-by-step Solution – Fig. 2

  1. i = 0.10 ÷ 365 ≈ 0.0002739726027…
  2. FV = 10,000 × (1 + 0.0002739726027…)730
  3. ≈ 10,000 × (1.0002739726027…)730
  4. ≈ 10,000 × 1.22136930164…
  5. ≈ 12,213.69

Final Answer

The final answer (FV) is approximately 12,213.69, of which 2,213.69 is interest (I).

Validate the calculator. Two-year, daily-compounded interest.

Present Value (PV):$10,000.00
Annual Interest Rate:10.0%
Days:<calculated>
Start Date:
End Date:
Compounding Frequency:Daily
Days in a Year:365
Future Value (FV):= $12,213.69
Gain on Investment (Interest Earned):$2,213.69

Notes:

  • This example uses the same calculation shown in Fig. 2.
  • For daily compounding, the calculator always uses days as the time unit when calculating the term (n).
  • You can either enter two dates exactly two years apart (the calculator will determine the number of days), or—
  • Enter a specific number of days (e.g., 365 or 366 if February 29 is included), and the calculator will determine the end date.

Future Value—Daily Simple Interest

Future value, daily simple interest equation.
Fig. 3 – Future Value—daily simple interest equation. Equation derived from:Wikipedia, licensed underCC BY-SA 4.0.
Step-by-step solution for future value with daily simple interest.

Fig. 4 – Step-by-step solution of the future value (FV) equation using daily simple interest.

Variables: PV = 10,000; R = 10%; d = 365; n = 730 (two years).

Variable Definitions

R
Nominal annual interest rate.
d
Number of days in a year (commonly 360 or 365).
i
Daily interest rate.
PV
Present value — the principal amount (initial investment).
n
Number of days in the investment term.

Calculation Steps Explained – Fig. 4

What is the future value of an investment of $10,000 for two years, assuming simple interest at a 10% annual interest rate?

To calculate the future value (FV) of this investment under daily simple interest, use the formula FV = PV + PV × i × n, where i = R ÷ d and n is the number of days in the term. The steps are as follows:

  1. Calculate the daily interest rate: i = 0.10 ÷ 365 ≈ 0.0002739726027…
  2. Substitute the known values into the formula: FV = 10,000 + 10,000 × 0.0002739726027… × 730
  3. Multiply the daily rate by the number of days: 0.0002739726027… × 730 ≈ 0.20000000000000…
  4. Multiply that result by the principal: 10,000 × 0.20000000000000… ≈ 2,000.00
  5. Add the interest to the original principal: 10,000 + 2,000.00 ≈ 12,000.00

The investment grows to $12,000.00 after two years of daily simple interest at 10%.

Step-by-step Solution – Fig. 4

  1. i = 0.10 ÷ 365 ≈ 0.0002739726027…
  2. FV = 10,000 + 10,000 × 0.0002739726027… × 730
  3. ≈ 10,000 + 10,000 × 0.20000000000000…
  4. ≈ 10,000 + 2,000.00
  5. FV ≈ 12,000.00

Final Answer

The final answer (FV) is approximately 12,000.00, of which 2,000.00 is interest.

Validate the calculator. One-year, monthly-compounded interest.

Present Value (PV):$10,000.00
Annual Interest Rate:10.0%
Number of Days:<calculated>
Start Date:
End Date:
Compounding Frequency:Exact ÷ Simple
Days in a Year:365
Future Value (FV):$12,000.00
Total Interest (Gain):$2,000.00

Notes:

  • This example uses the same calculation shown in Fig. 4.
  • For simple interest, the calculator always measures time in days.
  • You can either enter two dates exactly two years apart (the calculator will calculate the number of days), or—
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Questions?
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  • Greg Mettam says:

    Are you able to provide a version of the future value calculator in which the interest rate can be set to monthly as well as yearly?

    • Karl says:

      Of course, nearly anything can done. Do you mean you want to enter a monthly interest rate? And what do you mean by "provide?" Do you want a custom version to install on your own website? Or do you want me to host a calculator with such a feature? If the latter, I would be able to add the feature to this calculator, but I would need to have a good use case for doing so. Mostly, I would think users could convert a monthly rate to an annual rate.

      • Greg says:

        Hi Karl and thanks for your reply.
        As a lawyer I do a lot of debt recovery work but I sometimes struggle to find a suitable calculator.  If you can host a debt recovery calculator with a full suite of options, that would be very helpful. However, if you don’t want to do that, I am open to the idea of a bespoke calculator for my use only.

  • Greg says:

    Karl, I need to calculate the interest due on a specific debt so that I can claim that interest in court proceedings. A debt reduction calculator cannot do that.

  • Greg says:

    The Ultimate Loan Payoff Calculator is quite helpful but it needs to be changed for debt recovery purposes. For example, all references to a loan and a payment frequency have to removed. Also, I need to claim interest at a monthly rate (if applicable) not just an annual rate. Can this be done?

    • Karl says:

      The C-Value! program, which works like the UFC, allows the user to set the label descriptions (under settings and event names).

      Adding the the ability to select interest rates based on a month, would be quite costly. The calculator is complex and to add the feature would take a lot of testing. I’m not inclined to do it because no one (as I recall) has ever asked for the feature. If someone wanted a custom version it could be arrange, but it would be in the 5 figures.

      However, as I believe I mentioned before, one could convert a monthly rate to an annual rate. For example, a monthly rate of 1.2% is equal to an annual rate of 14.4% (1.2 x 12). Both values return 488.71 interest on $10,000 for 4 months.

  • Nate says:

    If I had a loan of $100 at 5% and I wanted to compound annually with 360 days in a year, I noticed that at 364 days, gain on investment is $5.06. If you put in 365 days, my gain on investment is down to $5. Why is that?

    • Karl says:

      This is due to the oddities of calendars and interest calculations.

      With annual compounding, the interest rate used is the nominal rate, that is 5% or 0.05. Invest the money for 365 days (assuming the time period does not span a leap year) and the money will be invested for one year and the 5% rate is used.

      But, invest the money for 364 days, and since that is less than a year, the annual compounding rate is not applicable. 364 days are all odd days, and therefore the daily rate is used. Since you’ve picked a 360 day year, the interest rate used will be 0.05/360.

      One more comment. So you know, I generally do not discuss financial equations. That’s not what this site is about. I can’t afford to spend the time, “getting into the weeds.” Therefore, I limit the question I answer to “What calculator do I use?” and “How do I used this calculator or feature”?

  • Fola says:

    Hi great work done,

    Can i get a FV calculator with irregular monthly payments but same interest rate.

  • Md.Imran Hossain says:

    How I can use this calculator on my wordpress website?

  • Endi says:

    Hi Karl,

    I would like to know how much life insurance cover I need based on:
    – Monthly expenses or income
    – Inflation rate
    – Periode of coverage

    Which calculator should I use to calculate sum amount of coverage?

    Thank you Karl

    • Karl says:

      Hi Endi, this is a good question. And it’s one that I’ve not spent much time thinking about, and others might have their own opinion. Thus, take this answer with that caveat!

      I believe all you need to do is add up the what you want to insure. So, if you want to buy life insurance to insure 20 years of income, and your annual income is $100,000 then buy $2 million dollars insurance.

      But what about inflation, you ask?

      Here’s the thing. If the insured dies, the beneficiaries will receive the $2 million at the time of death as a lump sum. As long as the proceeds from the policy are invested and the investment earns a return that matches the inflation rate, then you do not need to worry about the impact of inflation. That is, you do not need to buy more than the sum of the income because inflation will erode its purchasing power.

      On the other hand, if you think that the money can be invested for more or less than the inflation rate, then you can make an adjustment. In that case, use this present value of an annuity calculator. Using the above example, you would enter for "Regular Cash Flow Amount" the $100,000.

      Entering the right "Annual Discount Rate" is the key.

      If you think that you can invest the money and earn an average annual rate of return of say 7% and you think over the same period of time, the rate of inflation will be 5% then for the discount rate, you’ll need to enter 2% (the difference between the investment return and the inflation rate). And in that case, you’ll need less than $2 million of insurance.

      On the other hand, if you think that inflation is going to be 5%, but your investments will earn only 3.5% then you need to enter -1.5% as the discount rate, Then you’ll see that you’ll need more than $2 million of insurance.

      Hope this helps. (And I hope I didn’t miss anything!)

      • Endi says:

        Dear Karl,

        Thank you so much for your response. What you describe in your response is one of several ways to provide insurance, I totally agree of you’ve shared.

        The other day I saw an Indonesian website (a broker site) which provides two calculators to calculate the insurance need.

        Calculator A will calculate insurance need based on monthly expenditures, and Calculator B will calculate insurance need based on monthly income.

        Cases solved with those two calculators is like this:
        If someone has USD 1,000 monthly expenditures (or monthly income), and plan on insurance coverage for 5 years, with 3% of inflation rate, that person will need xxx amount of insurance cover so his/ her family could survive for 5 years.
        *xxx is the calculation result.

        Variables which should be entered on the calculator are:

        a. Current monthly expenditures/ income: ______
        b. Amount of year will be covered by insurance: ______
        c. Yearly inflation rate: ______
        The result will be the minimum amount insurance needed.

        I tried to calculate of the case above using Future Value of Annuity (FVoA), but the calculation result was different!

        Using the calculator on the site, calculation result is 63,710
        And if I’m using FVoA, the result is 64,647

        I assume that maybe the calculator on the site is not using FVoA, and I don’t have any idea what method they’re using to make the calculation.

        Giving the situation above, I hope maybe you could help to identify what method of calculation they are using to calculate the minimum total sum insured, so the result would be the same as what calculated on the site.

        Thank you Karl.

        • Karl says:

          Thank you for your follow-up.

          I’ve not had a chance to look at, let alone study the other calculator, but on this site, the Ultimate Financial Calculator will create a schedule that shows you you do not need to factor inflation into the calculation when buying life insurance.

          This assumes that if there is a death, the proceeds are invested at an investment return that is equal to the inflation rate. Take the example I proposed in my prior comment, $100,000 income for 20 years. That’s $2 million in total income. Buy a $2 million policy.

          Now, use the UFC calculator to see what happens. Let’s assume a 5% inflation rate. In the calculator, enter:

          Initial Interest Rate?: 5.0000%
          Initial Compounding?: Annually
          Schedule Type?: Savings
          Calculate Method?: Normal

          In the first row, enter, as a deposit, $2,000,000 and for #period enter 1 i.e. 1 deposit.
          In the 2nd row, enter withdraw with the same date as the deposit,
          continue in the second row, enter $100,000 and #period 20 and frequency Annually

          Now, this is the key, in the rightmost column in the second row, click on "Cash Flow Options," and in the window that opens, select "Percent Step," Starting amount should already show $100,000. Enter 5% as the step amount ("Percent change per level"). That is, you enter your assume inflation rate here. Leave "Number made before change" as 1. Make sure you select Activate “Percent Step” for currently selected series!

          Click "Save Changes" to close.

          One the main calculator, now click the "Schedule" button. (You can skip the title page options.)

          If you look at the schedule, you’ll see that the withdrawals (your income) increase by 5% each year. And at the end of the 20 years, the balance will be very close to 0. Shows you that the $2 million dollar life insurance lasted 20 years and increased by 5 percent each year. This is because the Initial Interest rate (the investment return) equals the step percentage (the income increase each year).

          What do you think?

  • Carlos Castiglia says:

    Quiero tener el resultado de una operación en la calculadora de Valor Futuro y no lo consigo: tengo un monto de 8154333, con una Tasa de 30% anual, capitalización mensual en 4 meses de plazo.

    • Karl says:

      ¿Por qué no puedes calcular un resultado? La calculadora debería hacerlo automáticamente. Dime los valores que estás ingresando.

    • Karl says:

      Present Value (PV)?: $8,154,333.00
      Annual Interest Rate?: 30.0000%
      Days (-9,999 # 1969)?: 04/25/2025
      End Date (year 2100)?: 08/25/2025

      Lo anterior debería funcionar para usted.

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