Difference between revisions of "M/z"

From MS Terms Wiki
Jump to navigation Jump to search
m (Reverted edit of Ionworker, changed back to last version by Kkmurray)
Line 3: Line 3:
 
Three-character symbol ''m/z'' is used to denote the dimensionless quantity formed by dividing the mass of an ion in unified atomic mass units by its charge number (regardless of sign). The symbol is written in italicized lower case letters with no spaces.
 
Three-character symbol ''m/z'' is used to denote the dimensionless quantity formed by dividing the mass of an ion in unified atomic mass units by its charge number (regardless of sign). The symbol is written in italicized lower case letters with no spaces.
  
Note 1:  The term [[mass-to-charge-ratio]] is deprecated. Mass-to-charge-ratio has been used for the abscissa of a mass spectrum, although the quantity measured is not the quotient of the ion's mass to its electric charge.  The three-character symbol ''m/z'' is recommended for the dimensionless quantity that is the independent variable in a mass spectrum
+
Note 1:  The term [[mass-to-charge ratio]] is deprecated. Mass-to-charge-ratio has been used for the abscissa of a mass spectrum, although the quantity measured is not the quotient of the ion's mass to its electric charge.  The three-character symbol ''m/z'' is recommended for the dimensionless quantity that is the independent variable in a mass spectrum
  
 
Note 2:  The proposed unit [[thomson]] (Th) is deprecated.
 
Note 2:  The proposed unit [[thomson]] (Th) is deprecated.

Revision as of 02:38, 12 July 2009

Obsolete Template


See additional comments on the M/z discussion page (archive of discussion between 2004 and 2006)


Orange Book Entry

m/z ratio.

Gold Book Entry

The abbreviation m/z is used to denote the dimensionless quantity formed by dividing the mass number of an ion by its charge number. It has long been called the mass-to-charge ratio although m is not the ionic mass nor is z a multiple or the elementary (electronic) charge, e. The abbreviation m/e is, therefore, not recommended. Thus, for example, for the ion C7H72+, m/z equals 45.5.


Related Terms


External Links

Wikipedia:Mass-to-charge_ratio