Parts-per notation

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The "parts-per" notations are used to denote low concentrations of chemical elements. Also known as mixing ratios, they are often used to denote the relative abundance of trace elements in the Earth's crust, trace elements in forensics or other analyses, dissolved minerals in water, or pollutants in the environment.

Parts-per notations (in particular ppm) are also used to specify the size of the errors of very precise measurements, such as gas pressure [1], voltage stability [2], and oscillator frequency.

The IEC suggests not to use the part-per notation to avoid misunderstanding. In most countries, a billion is 1012 (a million2) and a trillion 1018 (a million3); in the U.S. a billion is 109 and a trillion 1012 (being a billion in Europe). Nevertheless the notation is still widely used.

Contents

  • 1 Types of Parts-per notations
    • 1.1 Caveats
  • 2 Examples of parts per notation
  • 3 Use
  • 4 Inexact analogues
  • 5 NIST caution
  • 6 Notes
  • 7 See also

[edit] Types of Parts-per notations

[edit] Caveats

It is a term with several variants in meaning, so the meaning should be made clear if this term is used. In particular, the ratio can be expressed in terms of particle count as above, volume (used in particular for gases) or mass. It can also be used as a mixed term, indicating mass per volume of liquid, as in mg/L, especially where the liquid density approximates that of water.

The usage is generally quite fixed inside most specific branches of science, leading some researchers to believe that their own usage (mass/mass, volume/volume or others) is the only correct one. This, in turn, leads them not to specify their usage in their research, and others may therefore misinterpret their results. For example, electrochemists often use volume/volume, while chemical engineers may use mass/mass as well as volume/volume. Many academic papers of otherwise excellent level fail to specify their usage of the part-per notation. The difference between expressing concentrations as mass/mass or volume/volume is quite significant when dealing with gases and it is very important to specify which is being used. It is quite simple, for example, to distinguish ppm by volume from ppm by mass or weight by using ppmv or ppmw.

[edit] Examples of parts per notation

The metric system is the most convenient way to express this since metric units go by steps of ten, hundred and thousand. For example, a milligram is a thousandth of a gram and a gram is a thousandth of a kilogram. Thus, a milligram is a thousandth of a thousandth, or a millionth of a kilogram. A milligram is one part per million of a kilogram thus, one part per million (ppm) by mass is the same as one milligram per kilogram. Just as part per million is abbreviated as ppm, a milligram per kilogram has its own symbolic form -- mg/kg, which unlike ppm is unambiguous.

[edit] Use

Examples of situations where parts per million are an appropriate measure include:

[edit] Inexact analogues

[edit] NIST caution

According to the U.S. National Institute of Standards and Technology (NIST) Guide for the Use of the International System of Units (SI), "the language-dependent terms part per million, part per billion, and part per trillion ... are not acceptable for use with the SI to express the values of quantities." NIST's Guide for the Use of the International System of Units (SI) has examples of alternative expressions. Acceptable SI units are:

1 millimole/mole = 1 part per thousand

1 micromole/mole = 1 part per million

1 nanomole/mole = 1 part per billion

1 picomole/mole = 1 part per trillion