Talk:M/z: Difference between revisions

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(This Page Based on Comments by User 'Ionworker')
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== 6 reasons why ''m/z'' is completly wrong and should be discontinued ==
== 6 reasons why ''m/z'' is completly wrong and should be discontinued ==


# the symbol ''m'' is the reserved SI symbol for mass and should not be used for "mass number"
# mass spectrometers measure mass/charge which according to the SI system IS NOT A DIMENSIONLESS QUANTITY
# the concept of the supposedly dimensionless "mass snumber" is flawed and contradicts the SI system
# the symbol ''m'' is the reserved SI symbol for mass and should not be used for the dimensionless "mass number" which has the official symbol ''A''
# the concept of the supposedly dimensionless "m/z" is flawed and contradicts the SI system
# the symbol ''z'' is the reserved SI symbol for impedance and should not be used for "charge number"
# the symbol ''z'' is the reserved SI symbol for impedance and should not be used for "charge number"
# the concept of the supposedly dimensionless "charge number" is flawed and contradicts the SI system
# the concept of the supposedly dimensionless "charge number" is flawed and contradicts the SI system
# mass spectrometers measure mass/charge which according to the SI system IS NOT A DIMENSIONLESS QUANTITY
# ''m/z'' is so incredibly wrong that it makes mass spectrometrists look like incompetent fools in the scintific community
# ''m/z'' is so incredibly wrong that it makes mass spectrometrists look like incompetent fools in the scintific community



Revision as of 08:36, 1 April 2006

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6 reasons why m/z is completly wrong and should be discontinued

  1. mass spectrometers measure mass/charge which according to the SI system IS NOT A DIMENSIONLESS QUANTITY
  2. the symbol m is the reserved SI symbol for mass and should not be used for the dimensionless "mass number" which has the official symbol A
  3. the concept of the supposedly dimensionless "m/z" is flawed and contradicts the SI system
  4. the symbol z is the reserved SI symbol for impedance and should not be used for "charge number"
  5. the concept of the supposedly dimensionless "charge number" is flawed and contradicts the SI system
  6. m/z is so incredibly wrong that it makes mass spectrometrists look like incompetent fools in the scintific community

Background

Contrary to what the name implies, mass spectrometers do not measure the mass of an ion, they measure another physical quantity, the mass/charge ratio. This simple fact is the source of much confusion.

Using the correct SI units, the mass/charge ratio sould be indicated in kg/C (kilograms/Coulombs). In mass spectrometry, however, the SI system of units is hardly ever used. Instead the mass is indicated in the Atomic Mass Unit u and the charge is indicated in multiples of the elementary charge e.

Hence the correct labling of "mass spectra" would be m/q (u/e) where m is the symbol for mass, q the symbol for charge, u the unit of mass in atomic mass units (also called Dalton, Da), and e the unit of charge in elementary charge units. This notation, however, is hardly ever used. The reason is that one could argue that e is not an elementary charge unit but an elementary charge constant. The difference seems artificial, however, whereas the atomic mass unit u is accepted by the CPGM, the elementary charge seems to lack such an acceptance. This is rather surprising considering that the elementary charge is a natural fundamental unit, whereas the atomic mass unit is defined somewhat arbitrarily. Also, the elementary charge unit is often used not only by mass spectrometrists but by many (other) physicist.

m/z

As a way out of this confusion, many mass spectrometrists do not use m/q. Instead they use a somewhat artificial unit m/z where z is considered a unitless property indicating the number of elemental charges e missing in a molecule. This questionable approach, however, leads to the problem that the unit of m/z becomes the same as the unit for a mass m, thereby creating even more confusion.

To avoid this, some people go on and declare also m as a unitless property, whereby the m/z also becomes unitless. Following this approach, however, one has to wonder why not all measurments (length, time, speed, ...) are declared unitless.

In order to find a way out of the mess, it was proposed to introduce a new unit by 1 u/e = 1 Th (Thomson - see Cooks & Rockwood, Rapid Commun. Mass Spectrom. 5, 93, 1991 and Sparkman, Mass Spec Desk Reference p. 27).

According to this convention, mass spectra x axis should be labled m/q (Th). However, it will take years to change the commonly used m/z into m/q and to introduce the still not well known unit Th.

Since Th is derived from the elemental charge unit e, this unit should get official status. Therefore I propose installing a new unit for charge that is equal to the elementary charge. A good name would be Millikan (Mi).

[q] = Mi


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