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Bacteria populations, money invested at a guaranteed interest rate, the population of certain cities; these quantities tend to grow exponentially. This means that the larger they get, the faster they grow. With a short "doubling time," or amount of time it takes the quantity to grow, even a tiny quantity can rapidly become enormous. Learn how to find this value using a quick and easy formula, or delve into the math behind it.

Things You Should Know

  • To find doubling time, you can use the Rule of 70.
  • Check that the growth rate is under 0.15 so that it's small enough to use the rule.
  • The Rule of 70 is derived from the basic continuous growth rate formula.
Method 1
Method 1 of 2:

Estimating Doubling Time with the Rule of 70

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  1. Doubling time is a concept used for quantities that grow exponentially. Interest rates and the growth of a population are the most common examples used. If the growth rate is less than about 0.15 per time interval, we can use this fast method for a good estimate.[1] If the problem doesn't give you the growth rate, you can find it in decimal form using .
    • Example 1: The population of an island grows at an exponential rate. From 2015 to 2016, the population increases from 20,000 to 22,800. What is the population's growth rate?
      • 22,800 - 20,000 = 2,800 new people. 2,800 ÷ 20,000 = 0.14, so the population is growing by 0.14 per year. This is small enough that the estimate will be fairly accurate.
  2. Most people find this more intuitive than the decimal fraction.
    • Example 1 (cont): The island had a growth rate of 0.14, written as a decimal fraction. This represents . Multiply the numerator and denominator by 100 to get 14% per year.
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  3. The answer will be the number of time intervals it takes the quantity to double. Make sure you express the growth rate as a percentage, not a decimal, or your answer will be off. (If you're curious why this "rule of 70" works, read the more detailed method below.)
    • Example 1 (cont): The growth rate was 14%, so the number of time intervals required is .
  4. In most cases, you'll already have the answer in terms of years, seconds, or another convenient measurement. If you measured the growth rate across a larger span of time, however, you may want to multiply to get your answer in terms of single units of time.
    • Example 1 (cont): In this case, since we measured the growth across one year, each time interval is one year. The island population doubles every 5 years.
    • Example 2: The second, spider-infested island nearby is much less popular. It also grew from a population of 20,000 to 22,800, but took 20 years to do it. Assuming its growth is exponential, what is this population's doubling time?
      • This island has a 14% growth rate over 20 years. The "rule of 70" tells us it will also take 5 time intervals to double, but in this case each time interval is 20 years. (5 time intervals) x (20 years/time interval) = 100 years for the spider-infested island's population to double.
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Method 2
Method 2 of 2:

Deriving the "Rule of 70" Formula

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  1. If you start with an initial amount that grows exponentially, the final amount is described by the formula . The variable r represents the growth rate per time period (as a decimal), and t is the number of time periods.[2]
    • To make sense of this formula, picture a $100 investment with a 0.02 annual interest rate. Every time you calculate growth, you multiply the amount you have by 1.02. After one year, that's ($100)(1.02), after two years that's ($100)(1.02)(1.02), and so on. This simplifies to , where t is the number of time periods.
    • Note: If r and t do not use the same time unit, use the formula , where n is the number of times growth is calculated per time period. For example, if r = 0.05 per month and t = 4 years, use n = 12, since there are twelve months in a year.
  2. In most real-world situations, a quantity grows "continuously" instead of increasing only at regular intervals. In this case, the formula for growth is , using the mathematical constant e.[3]
    • This formula is often used to approximate population growth, and always when calculating continuously compounded interest. In situations where growth is calculated at regular intervals, such as annually compounded interest, the formula above is more accurate.
    • You can derive this from the formula from the one above using calculus concepts.
  3. When the population doubles, the final amount will equal twice the initial amount, or . Plug this into the formula and remove all A terms using algebra:
    • Divide both sides by
  4. If you haven't learned about logarithms yet, you may not know how to get the t out of the exponent. The term means "the exponent m is raised by to get n." Because the constant e comes up so often in real world situations, there's a special term "natural log," abbreviated "ln," that means . Use this to isolate t on one side of the equation:
  5. Now you can solve for t by entering the decimal growth rate r into this formula. Notice that ln(2) is approximately equal to 0.69. Once you convert the growth rate from decimal to percentage form, you can round this value to get the "rule of 70" formula.
    • Now that you know this formula, you can adjust it to solve similar problems. For example, find "tripling time" with the formula .
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Community Q&A

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  • Question
    Why is the number 70 in the formula of doubling time? Why not any other number?
    Community Answer
    Community Answer
    It comes from the fact that 70 is a good approximation for 100*ln(2).
  • Question
    After 5 years of population growth at 25% annually, what will a population be that begins with 176 people?
    Community Answer
    Community Answer
    The exponential growth formula is Final Value = Initial Value (1 + Rate) ^ Time(years). Plugging the given numbers in gives us FV = 176(1+0.25)^5. Continuing to solve this gives FV = 176(1.25)^5 and then FV = 176(3.0518). Finishing solving gives us an answer of about 537. Therefore, after 5 years the population of this town will be about 537 people.
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Tips

  • Some financial investments fluctuate up and down instead of growing at a steady rate. In order to compare these to other options, investors use the compound annual growth rate formula (CAGR): . The answer tells you what the exponential growth rate would be if growth were steady.[4] Note that this growth rate is in decimal form.
  • If the growth occurs at a constant rate regardless of the total size (such as "5 people per year" instead of a percentage), don't use the method above. Describe this linear growth pattern as , where is the amount at time t, is the amount at time 0, r is the constant rate of growth, and t is the amount of time elapsed. There is no constant doubling time for linear growth rate, but you can solve the doubling time problem for a specific point in time. Set equal to and solve for t. Your answer will only by true for that specific value of .
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Warnings

  • Some guides use the formula 0.7 ÷ growth rate instead. This is the correct formula when growth rate is expressed as a decimal. Make sure not to confuse this with the formula above (70 ÷ growth rate as a percentage), or your answer will be off by a factor of 100.
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About This Article

Joseph Meyer
Reviewed by:
Math Teacher
This article was reviewed by Joseph Meyer. Joseph Meyer is a High School Math Teacher based in Pittsburgh, Pennsylvania. He is an educator at City Charter High School, where he has been teaching for over 7 years. Joseph is also the founder of Sandbox Math, an online learning community dedicated to helping students succeed in Algebra. His site is set apart by its focus on fostering genuine comprehension through step-by-step understanding (instead of just getting the correct final answer), enabling learners to identify and overcome misunderstandings and confidently take on any test they face. He received his MA in Physics from Case Western Reserve University and his BA in Physics from Baldwin Wallace University. This article has been viewed 302,946 times.
20 votes - 46%
Co-authors: 16
Updated: December 19, 2023
Views: 302,946
Categories: Mathematics
Article SummaryX

To calculate doubling time, first multiply your growth rate by 100 to convert it to a percentage. If you don’t know your growth rate, you can derive it by subtracting your past quantity from your current quantity and dividing the result by your past quantity to get it before you multiply it by 100. Then, just divide the number 70 by your percentage growth rate to get the time it takes for your quantity to double. Just be aware that this method of doubling time with the Rule of 70 only works well for things with a growth rate of less than about 15%. To learn how the math behind the Rule of 70 works, scroll down!

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