Metric notation
The metric system, besides being a
collection of measurement units for all sorts of physical
quantities, is structured around the concept of scientific
notation. The primary difference is that the powers-of-ten
are represented with alphabetical prefixes instead of by
literal powers-of-ten. The following number line shows some
of the more common prefixes and their respective
powers-of-ten:
Looking at this scale, we can see that 2.5
Gigabytes would mean 2.5 x 109 bytes, or 2.5
billion bytes. Likewise, 3.21 picoamps would mean 3.21 x 10-12
amps, or 3.21 1/trillionths of an amp.
Other metric prefixes exist to symbolize
powers of ten for extremely small and extremely large
multipliers. On the extremely small end of the spectrum,
femto (f) = 10-15, atto (a) = 10-18,
zepto (z) = 10-21, and yocto (y) =
10-24. On the extremely large end of the
spectrum, Peta (P) = 1015, Exa (E)
= 1018, Zetta (Z) = 1021, and
Yotta (Y) = 1024.
Because the major prefixes in the metric
system refer to powers of 10 that are multiples of 3 (from
"kilo" on up, and from "milli" on down), metric notation
differs from regular scientific notation in that the
significant digits can be anywhere between 1 and 1000,
depending on which prefix is chosen. For example, if a
laboratory sample weighs 0.000267 grams, scientific notation
and metric notation would express it differently:
2.67 x 10-4 grams (scientific
notation)
267 �grams (metric notation)
The same figure may also be expressed as
0.267 milligrams (0.267 mg), although it is usually more
common to see the significant digits represented as a figure
greater than 1.
In recent years a new style of metric
notation for electric quantities has emerged which seeks to
avoid the use of the decimal point. Since decimal points
(".") are easily misread and/or "lost" due to poor print
quality, quantities such as 4.7 k may be mistaken for 47 k.
The new notation replaces the decimal point with the metric
prefix character, so that "4.7 k" is printed instead as
"4k7". Our last figure from the prior example, "0.267 m",
would be expressed in the new notation as "0m267".
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