Hallo wieviel Mykrogramm (griechisches Zeichen - sieht ein wenig aus wie ein tiefgestelltes y vor dem Zeichen für Gramm) sind ein Milligramm? 10, 100 oder 1000??
Danke und Gruß
Max
Hallo wieviel Mykrogramm (griechisches Zeichen - sieht ein
wenig aus wie ein tiefgestelltes y vor dem Zeichen für Gramm)
sind ein Milligramm? 10, 100 oder 1000??
Milli…1/1.000
Mikro…1/1.000.000
Also sind 1.000 Mikrogramm ein Milligramm.
LG
Stuffi
1000
Hallo,
also 10-6 Gramm.
Gruss
Enno
danke (o.w.T.)
xx
Hat sich zwar schon geklärt, trotzdem nochmal zur Übersicht eine Tabelle:
Potenz Name Abk. Bezeichnung Erklärung
10^18 Exa E Trillionen gr. exa: über alles
10^15 Peta P Billiarden gr. petanünnein: alles umfassen
10^12 Tera T Billionen gr. to teras: ungeheuer groß
10^9 Giga G Milliarden gr. ho gigas: riesige Zahl
10^6 Mega M Millionen gr. megas: große Zahl
10^3 Kilo k Tausend gr. chilioi: tausend
10^0
10^(-3) Milli m Tausendstel lat. millesimus: der tausendste Teil
10^(-6) Mikro µ Millionstel gr. mikros: klein, unbedeutend
10^(-9) Nano n Milliardstel gr. ho nanos: zwerghaft klein
10^(-12) Piko p Billionstel ital. pico: sehr klein
10^(-15) Femto f Billiardstel dän.-norw. femten: 15
10^(-18) Atto a Trillionstel dän.-norw. atten: 18
Gruß
Jochen
moings…
und weils so schoen ist, noch mehr… 
Prefix multipliers
In communications, electronics, and physics, multipliers are defined
in powers of 10 from 10<sup>-24</sup> to 10<sup>24</sup>, proceeding in increments of
three orders of magnitude (10<sup>3</sup> or 1,000). In IT and data storage,
multipliers are defined in powers of 2 from 2<sup>10</sup> to 2<sup>80</sup>, proceeding
in increments of ten orders of magnitude (2<sup>10</sup> or 1,024).
Prefix Symbol(s) Power of 10 Power of 2
yocto- y 10<sup>-24</sup> --
zepto- z 10<sup>-21</sup> --
atto- a 10<sup>-18</sup> --
femto- f 10<sup>-15</sup> --
pico- p 10<sup>-12</sup> --
nano- n 10<sup>-9</sup> --
micro- µ 10<sup>-6</sup> --
milli- m 10<sup>-3</sup> --
centi- c 10<sup>-2</sup> --
deci- d 10<sup>-1</sup> --
(none) - 10<sup>0</sup> 2<sup>0</sup>
deka- D 10<sup>1</sup> --
hecto- h 10<sup>2</sup> --
kilo- k or K [\*] 10<sup>3</sup> 2<sup>10</sup>
mega- M 10<sup>6</sup> 2<sup>20</sup>
giga- G 10<sup>9</sup> 2<sup>30</sup>
tera- T 10<sup>12</sup> 2<sup>40</sup>
peta- P 10<sup>15</sup> 2<sup>50</sup>
exa- E 10<sup>18</sup> 2<sup>60</sup>
zetta- Z 10<sup>21</sup> 2<sup>70</sup>
yotta- Y 10<sup>24</sup> 2<sup>80</sup>
[\*] k = 10<sup>3</sup> and K = 2<sup>10</sup>
Examples of quantities or phenomena in which power-of-10 prefix
multipliers apply include frequency (including computer clock speeds),
physical mass, power, energy, electrical voltage, and electrical
current. Power-of-10 multipiers are also used to define binary data
speeds. Thus, for example, 1 kbps (one kilobit per second) is equal to
10<sup>3</sup>, or 1,000, bps (bits per second); 1 Mbps (one megabit per second)
is equal to 10<sup>6</sup>, or 1,000,000, bps. (The lowercase k is the
technically correct symbol for kilo- when it represents 10<sup>3</sup>, although
the uppercase K is often used instead.)
When binary data is stored in memory or fixed media such as a hard
drive, diskette, ZIP disk, tape, or CD-ROM, power-of-2 multipliers are
used. Technically, the uppercase K should be used for kilo- when it
represents 2<sup>10</sup>. Therefore 1 KB (one kilobyte) is 2<sup>10</sup>, or 1,024, bytes;
1 MB (one megabyte) is 2<sup>20</sup>, or 1,048,576 bytes.
The choice of power-of-10 versus power-of-2 prefix multipliers can
appear arbitrary. It helps to remember that in common usage, multiples
of bits are almost always expressed in powers of 10, while multiples
of bytes are almost always expressed in powers of 2. Rarely is data
speed expressed in bytes per second, and rarely is data storage or
memory expressed in bits. Such usages are considered improper.
Confusion is not likely, therefore, provided one adheres strictly to
the standard usages of the terms bit and byte.
Servutz
Stephan
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