Avogadro's number: Difference between revisions

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Recall that the atomic mass constant has the mass 1 u exactly (u is the [[unified atomic mass unit]]). Avogadro's number is indeed  defined as ''number'', a dimensionless quantity. Its latest numeric value<ref>[[CODATA]] value retrieved December 4, 2007 from: [http://physics.nist.gov/cuu/Reference/Fundamental constants stored at [[NIST]] ]</ref> is ''N''<sub>A</sub> = 6.022&thinsp;141&thinsp;79  10<sup>23</sup>.  
Recall that the atomic mass constant has the mass 1 u exactly (u is the [[unified atomic mass unit]]). Avogadro's number is indeed  defined as ''number'', a dimensionless quantity. Its latest numeric value<ref>[[CODATA]] value retrieved December 4, 2007 from: [http://physics.nist.gov/cuu/Reference/Fundamental constants stored at [[NIST]] ]</ref> is ''N''<sub>A</sub> = 6.022&thinsp;141&thinsp;79  10<sup>23</sup>.  


The [[SI]] definition of '''Avogadro's constant''' is: the number of entities (such as atoms, ions,  or molecules) per [[mole (unit)|mole]]. (This definition requires, of course, a definition of mole that does not rely on ''N''<sub>A</sub>, but one that is in terms of <sup>12</sup>C atoms). In this definition ''N''<sub>A</sub> has dimension mol<sup>&minus;1</sup>.  
The [[SI]] definition of '''Avogadro's constant''' (also designated by ''N''<sub>A</sub>) is: the number of entities (such as atoms, ions,  or molecules) per [[mole (unit)|mole]]. (This definition requires, of course, a definition of mole that does not rely on ''N''<sub>A</sub>, but one that is in terms of <sup>12</sup>C atoms). In this definition ''N''<sub>A</sub> has dimension mol<sup>&minus;1</sup>.  
The numeric value of Avogadro's constant is ''N''<sub>A</sub> = 6.022&thinsp;141&thinsp;79  10<sup>23</sup> mol<sup>&minus;1</sup>. Because both the mole and  Avogadro's number are defined in terms of the atomic mass constant, Avogadro's constant and Avogadro's number have by definition the same numerical value.
The numeric value of Avogadro's constant is ''N''<sub>A</sub> = 6.022&thinsp;141&thinsp;79  10<sup>23</sup> mol<sup>&minus;1</sup>.  
 
Because the mole and  Avogadro's number are defined in terms of the atomic mass constant (one twelfth of the mass of a <sup>12</sup>C atom), Avogadro's constant and Avogadro's number have by definition the same numerical value. In practice the two terms are used interchangeably.
 
==References==
==References==
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Revision as of 05:32, 5 December 2007

Avogadro's number, NA, is defined as the number of atoms in 12 gram of carbon-12 atoms in their ground state at rest. By definition it is related to the atomic mass constant mu by the relation

The exact factor 1/1000 appears here by the historic facts that the kilogram is the unit of mass and that in chemistry the mole is preferred over the Kmole. Recall that the atomic mass constant has the mass 1 u exactly (u is the unified atomic mass unit). Avogadro's number is indeed defined as number, a dimensionless quantity. Its latest numeric value[1] is NA = 6.022 141 79 1023.

The SI definition of Avogadro's constant (also designated by NA) is: the number of entities (such as atoms, ions, or molecules) per mole. (This definition requires, of course, a definition of mole that does not rely on NA, but one that is in terms of 12C atoms). In this definition NA has dimension mol−1. The numeric value of Avogadro's constant is NA = 6.022 141 79 1023 mol−1.

Because the mole and Avogadro's number are defined in terms of the atomic mass constant (one twelfth of the mass of a 12C atom), Avogadro's constant and Avogadro's number have by definition the same numerical value. In practice the two terms are used interchangeably.

References

  1. CODATA value retrieved December 4, 2007 from: constants stored at NIST