**Significance arithmetic** is a set of rules (sometimes called **significant figure rules**) for approximating the propagation of uncertainty in scientific or statistical calculations. These rules can be used to find the appropriate number of significant figures to use to represent the result of a calculation. If a calculation is done without analysis of the uncertainty involved, a result that is written with too many significant figures can be taken to imply a higher precision than is known, and a result that is written with too few significant figures results in an avoidable loss of precision. Understanding these rules requires a good understanding of the concept of significant and insignificant figures.

The rules of significance arithmetic are an approximation based on statistical rules for dealing with probability distributions. See the article on propagation of uncertainty for these more advanced and precise rules. Significance arithmetic rules rely on the assumption that the number of significant figures in the operands gives accurate information about the uncertainty of the operands and hence the uncertainty of the result. For an alternative see interval arithmetic.

An important caveat is that significant figures apply only to *measured* values. Values known to be exact should be ignored for determining the number of significant figures that belong in the result. Examples of such values include:

- integer counts (e.g., the number of oranges in a bag)
- definitions of one unit in terms of another (e.g. a minute is 60 seconds)
- actual prices asked or offered, and quantities given in requirement specifications
- legally defined conversions, such as international currency exchange
- scalar operations, such as "tripling" or "halving"
- mathematical constants, such as π and e

Physical constants such as Avogadro's number, on the other hand, have a limited number of significant digits, because these constants are known to us only by measurement, but on the other hand c (speed of light) is exactly 299,792,458 m/s by definition.

Read more about Significance Arithmetic: Multiplication and Division Using Significance Arithmetic, Addition and Subtraction Using Significance Arithmetic, Rounding Rules, Disagreements About Importance

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**Significance Arithmetic**- Disagreements About Importance

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**Significance**is not the same as significant digits ... Digit-counting is not as rigorous a way to represent

**significance**as specifying the uncertainty separately and explicitly (such as 1.234±0.056) ... Another option is interval

**arithmetic**, which can provide a strict upper bound on the uncertainty, but generally it is not a tight upper bound (i.e ...

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