Atomic mass units: Difference between revisions

Revision as of 13:33, 25 October 2007

The atomic mass unit (AMU) is defined as the twelfth part of the mass of a C $_{12}$ atom. Its value (in SI units, CODATA value) is

1.66054\times 10^{-27}

kilograms

Hence, it is approximately equal to the mass of a proton. Elements are assigned masses in these units which are not integer numbers. This is because neutrons and protons have slightly different masses, because nuclear binding forces cause the total mass of a nucleus to be less than that of the sum of its constituents, and, mainly, because of the appearance of natural isotopes. Thus, Potassium has a mass of 39.10 mainly because of natural K $^{40}$ isotopes.

Here is a list of masses of elements and compounds in atomic mass units:

Compound/element	mass in amu
Ar	39.95
Xe	131.29
CO₂	44.01
H₂O (water)	18.02
N₂	28.01

@@ Line 1: / Line 1: @@
-The Atomic Mass Unit is defined as the twelfth part
+The '''atomic mass unit''' (AMU) is defined as the twelfth part
 of the mass of a C<math>_{12}</math> atom.
 Its value (in SI units,
@@ Line 7: / Line 7: @@
 Hence,
 it is approximately equal to the mass of a proton.
-Elements are asigned masses in these units which are
+Elements are assigned masses in these units which are
 not integer numbers. This is because
 neutrons and protons have slightly different masses,
 because nuclear binding forces cause the total mass
-of a nucleum to be less than that of the sum of
+of a nucleus to be less than that of the sum of
 its constituents, and, mainly, because of the
 appearance of natural isotopes. Thus, Potassium
@@ Line 17: / Line 17: @@
 isotopes.
-Here is a list of masses of elements and compounds in amus:
+Here is a list of masses of elements and compounds in atomic mass units:
 {| border="1"
 |-

Atomic mass units: Difference between revisions

Revision as of 13:33, 25 October 2007

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