Thomson (unit): Difference between revisions

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	The unit '''Thomson''' is a unit that has appeared infrequently in scientific literature relating to the field of ] as a unit of '']''. It was never widely used and is not accepted by most journals in the field. It has also been proposed within ] that the unit be specifically rejected and deprecated after years of simply not being accepted by IUPAC or any other standards body.		The unit '''Thomson''' is a unit that has appeared infrequently in scientific literature relating to the field of ] as a unit of ]. It was never widely used and is not accepted by most journals in the field. It has also been proposed within ] that the unit be specifically rejected and deprecated after years of simply not being accepted by IUPAC or any other standards body.

	Cooks and Rockwood proposed the unit ] (Th) for the ] ] defined by:		Cooks and Rockwood proposed the unit ] (Th) for the ] ] defined by:
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	where '''u''' represents the atomic mass unit, '''Da''' represents the unit dalton, and '''e''' represents the atomic charge unit.		where '''u''' represents the atomic mass unit, '''Da''' represents the unit dalton, and '''e''' represents the atomic charge unit.

	For example, for the ion C<sub>7</sub>H<sub>7</sub><sup>2+</sup> an ion will be observed at 45.5 ~~''m/z''~~ '''Th'''		For example, for the ion C<sub>7</sub>H<sub>7</sub><sup>2+</sup> an ion will be observed at 45.5 '''Th'''

	An interesting part of their proposal allowed for negative values for negatively charged ions. The name refers to ] who measured the ] of electrons and ions. The thomson is not a ], nor is it currently accepted by ]. The thomson complies better to the international standards about quantities and units as described in ] and the ] than the unitless ] that is ~~almost universally~~ used for labeling ].		An interesting part of their proposal allowed for negative values for negatively charged ions. The name refers to ] who measured the ] of electrons and ions. The thomson is not a ], nor is it currently accepted by ]. The thomson complies better to the international standards about quantities and units as described in ] and the ] than the unitless ] that is often used for labeling ].

	Today, the thomson is used by ~~some~~ authors of scientific posters and papers, as can be seen in the following examples:		Today, the thomson is used by many authors of scientific posters and papers, as can be seen in the following examples:

	:*		:*

Revision as of 15:31, 2 December 2007

The unit Thomson is a unit that has appeared infrequently in scientific literature relating to the field of mass spectrometry as a unit of mass-to-charge ratio. It was never widely used and is not accepted by most journals in the field. It has also been proposed within IUPAC that the unit be specifically rejected and deprecated after years of simply not being accepted by IUPAC or any other standards body.

Cooks and Rockwood proposed the unit thomson (Th) for the physical quantity mass-to-charge ratio defined by:

1 Th == 1 u/e == 1 Da/e.

where u represents the atomic mass unit, Da represents the unit dalton, and e represents the atomic charge unit.

For example, for the ion C₇H₇ an ion will be observed at 45.5 Th

An interesting part of their proposal allowed for negative values for negatively charged ions. The name refers to Joseph John Thomson who measured the mass-to-charge ratio of electrons and ions. The thomson is not a SI unit, nor is it currently accepted by IUPAC. The thomson complies better to the international standards about quantities and units as described in ISO 31 and the IUPAC green book than the unitless m/z that is often used for labeling mass spectra.

Today, the thomson is used by many authors of scientific posters and papers, as can be seen in the following examples:

ASMS
m/z (Th)
m/z (Th)
m/z (Th)
m/z (Th)
Mass Spectrometry, Principles and Applications, E. De Hoffmann, J. Charette, V. Stroobant, ISBN 0-471-96696-7

References

Cooks, R. G. and A. L. Rockwood (1991). "The 'Thomson'. A suggested unit for mass spectroscopists." Rapid Communications in Mass Spectrometry 5(2): 93.

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