How to Use Logarithmic Tables

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Before computers and calculators, logarithms were quickly calculated using logarithmic tables. [1] These tables can still be useful for quickly calculating logarithms or multiplying large numbers, once you figure out how to use them.

Method 1
Method 1 of 4:

Quick Instructions

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    To find log a (n), you'll need a log a table. Most log tables are for base-10 logarithms, called "common logs." [2]
    • Example: log 10 (31.62) requires a base-10 table.
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    Look for the cell value at the following intersections, ignoring all decimal places: [3]
    • Row labeled with first two digits of n
    • Column header with third digit of n
    • Example: log 10 (31.62) → row 31, column 6 → cell value 0.4997.
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    Some tables have a smaller set of columns on the right side of the chart. Use these to adjust answer if n has four or more significant digits:
    • Stay in same row
    • Find small column header with fourth digit of n
    • Add this to previous value
    • Example: log 10 (31.62) → row 31, small column 2 → cell value 2 → 4997 + 2 = 4999.
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    The log table only tells you the portion of your answer after the decimal point. This is called the "mantissa." [4]
    • Example: Solution so far is ?.4999
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    Also called the "characteristic". By trial and error, find integer value of p such that and .
    • Example: and . The "characteristic" is 1. The final answer is 1.4999
    • Note how easy this is for base-10 logs. Just count the digits left of the decimal and subtract one.
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Method 2
Method 2 of 4:

In-Depth Instructions

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    10 2 is 100. 10 3 is 1000. The powers 2 and 3 are the base-10 logarithms of 100 and 1000. [5] In general, a b = c can be rewritten as log a c = b . So, saying "ten to the power of two is 100" is equivalent to saying "the base-ten log of 100 is two." Each logarithmic table is only usable with a certain base ( a in the equation above). By far the most common type of log table uses base-10 logs, also called the common logarithm.
    • Multiply two numbers by adding their powers. For example: 10 2 * 10 3 = 10 5 , or 100 * 1000 = 100,000.
    • The natural log, represented by "ln", is the base-e log, where e is the constant 2.718. This is a useful number in many areas of math and physics. You can use natural log tables in the same way that you use common, or base-10, log tables.
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    Let's say you want to find the base-10 log of 15 on a common log table. 15 lies between 10 (10 1 ) and 100 (10 2 ), so its logarithm will lie between 1 and 2, or be 1.something. 150 lies between 100 (10 2 ) and 1000 (10 3 ), so its logarithm will lie between 2 and 3, or be 2.something. The .something is called the mantissa; this is what you will find in the log table. What comes before the decimal point (1 in the first example, 2 in the second) is the characteristic.
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    This column will show the first two or, for some large log tables, three digits of the number whose logarithm you're looking up. If you're looking up the log of 15.27 in a normal log table, go to the row marked 15. If you're looking up the log of 2.57, go to the row marked 25.
    • Sometimes the numbers in this row will have a decimal point, so you'll look up 2.5 rather than 25. You can ignore this decimal point, as it won't affect your answer.
    • Also ignore any decimal points in the number whose logarithm you're looking up, as the mantissa for the log of 1.527 is no different from that of the log of 152.7.
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    This column will be the one marked with the next digit of the number whose logarithm you're looking up. For example, if you want to find the log of 15.27, your finger will be on the row marked 15. Slide your finger along that row to the right to find column 2. You will be pointing at the number 1818. Write this down.
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    If your log table has a mean difference table, slide your finger over to the column in that table marked with the next digit of the number you're looking up. For 15.27, this number is 7. Your finger is currently on row 15 and column 2. Slide it over to row 15 and mean differences column 7. You will be pointing at the number 20. Write this down.
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    For 15.27, you will get 1838. This is the mantissa of the logarithm of 15.27.
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    Since 15 is between 10 and 100 (10 1 and 10 2 ), the log of 15 must be between 1 and 2, so 1.something, so the characteristic is 1. Combine the characteristic with the mantissa to get your final answer. Find that the log of 15.27 is 1.1838.
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Method 3
Method 3 of 4:

Finding the Anti-Log

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    Use this when you have the log of a number but not the number itself. In the formula 10 n = x, n is the common log, or base-ten log, of x. If you have x, find n using the log table. If you have n, find x using the anti-log table.
    • The anti-log is also commonly known as the inverse log.
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    This is the number before the decimal point. If you're looking up the anti-log of 2.8699, the characteristic is 2. Mentally remove it from the number you're looking up, but make sure to write it down so you don't forget it - it will be important later.
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    In 2.8699, the mantissa is .8699. Most anti-log tables, like most log tables, have two digits in the leftmost column, so run your finger down that column until you find .86.
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    For 2.8699, slide your finger along the row marked .86 to find the intersection with column 9. This should read 7396. Write this down.
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    If your anti-log table has a table of mean differences, slide your finger over to the column in that table marked with the next digit of the mantissa. Make sure to keep your finger in the same row. In this case, you will slide your finger over to the last column in the table, column 9. The intersection of row .86 and mean differences column 9 is 15. Write that down.
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    In our example, these are 7396 and 15. Add them together to get 7411.
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    Our characteristic was 2. This means that the answer is between 10 2 and 10 3 , or between 100 and 1000. In order for the number 7411 to fall between 100 and 1000, the decimal point must go after three digits, so that the number is about 700 rather than 70, which is too small, or 7000, which is too big. So the final answer is 741.1.
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Method 4
Method 4 of 4:

Multiplying Numbers

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    We know that 10 * 100 = 1000. Written in terms of powers (or logarithms), 10 1 * 10 2 = 10 3 . We also know that 1 + 2 = 3. In general, 10 x * 10 y = 10 x + y . So, the sum of the logarithms of two different numbers is the logarithm of the product of those numbers. We can multiply two numbers of the same base by adding their powers. [6]
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    Use the method above to find the logarithms. For example, if you want to multiply 15.27 and 48.54, you would find the log of 15.27 to be 1.1838 and the log of 48.54 to be 1.6861.
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    In this example, add 1.1838 and 1.6861 to get 2.8699. This number is the logarithm of your answer.
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    You can do this by finding the number in the body of the table closest to the mantissa of this number (8699). The more efficient and reliable method, however, is to find the answer in the table of anti-logarithms, as described in the method above. For this example, you will get 741.1.
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  • Question
    How do I find the log of a cube?
    Donagan
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    Triple the log of the number that has been cubed.
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  • Question
    How do I find logs for 3.14?
    Community Answer
    Multiply 3.14 with 10 to get 31.4, then find log (31.4), which is roughly 1.4969. Now, divide this by 10 to get your log with base 10.
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    How do I find the log of a single digit?
    Community Answer
    Say you want to find the log of 9. You know that 9 = 9.0 = 9.00 and so on. Now that you have the correct number of significant digits, you can use a log table as long as you deal with decimal points correctly.
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      • Read the page heading carefully. A log book has about 30 pages and using the wrong page will give the wrong answer.
        Thanks

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      • You can always cross check with calculator operations to see if you're on the right track.
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      Warnings

      • Most tables are only accurate to three or four digits. If you find the anti-log of 2.8699 using a calculator, the answer will round to 741.2, but the answer you get using log tables is 741.1. This is due to rounding in the tables. If you need a more precise answer, use a calculator or another method rather than log tables.
        Thanks
      • Make sure that the readings are from the same row. Sometimes, we may mix up rows and columns because of the small size and close spacing.
        Thanks
      • Use the methods described in this article for common log, or base-ten log, tables, and make sure the numbers you're looking up are in base-ten format, or scientific notation.
        Thanks
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      Things You'll Need

      • logarithmic table or log book
      • spare sheet of paper.

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      References

      1. https://www.youtube.com/watch?v=VRzH4xB0GdM
      2. http://www.mathwords.com/c/common_logarithm.htm
      3. https://www.cuemath.com/algebra/log-table/
      4. http://mathworld.wolfram.com/Mantissa.html
      5. http://www.oldcomputers.arcula.co.uk/bhist3.htm
      6. http://www.phy6.org/stargaze/Slog1.htm

      About This Article

      Article Summary X

      To use logarithmic tables for a base-10 logarithm, start by making sure you have the correct log table, called a “common log.” Then, scan the “n” column on the far left for the first two digits of the number. From there, move to the right to find the column labeled with the third digit of the number, and find the cell where the row and column intersect. The cell contains the digits of the number that are after the decimal point, or the “mantissa.” Once you have the mantissa, count the number of places after the decimal point and subtract one to find the integer. If you need to learn more, such as how to find the anti-log of your logarithm, keep reading the article!

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