Preferred Label : titration;
IUPAC definition : The process of determining the quantity of a substance A by adding measured increments
of substance B, with which it reacts (almost always as a standardized solution called
the titrant, but also by electrolytic generation, as in coulometric titration) with
provision for some means of recognizing (indicating) the endpoint at which essentially
all of A has reacted. If the endpoint coincides with the addition of the exact chemical
equivalence, it is called the equivalence point or stoichiometric or theoretical endpoint,
thus allowing the amount of A to be found from known amounts of B added up to this
point, the reacting weight ratio of A to B being known from stoichiometry or otherwise.
Terms for varieties of titration can reflect the nature of the reaction between A
and B. Thus, there are acid–base, complexometric, chelatometric, oxidation–reduction,
and precipitation titrations. Additionally, the term can reflect the nature of the
titrant, such as acidimetric, alkalimetric, and iodometric titrations as well as coulometric
titrations, in which the titrant is generated electrolytically rather than being added
as a standard solution.;
Origin ID : T06387;
Automatic exact mappings (from CISMeF team)
- See also
The process of determining the quantity of a substance A by adding measured increments
of substance B, with which it reacts (almost always as a standardized solution called
the titrant, but also by electrolytic generation, as in coulometric titration) with
provision for some means of recognizing (indicating) the endpoint at which essentially
all of A has reacted. If the endpoint coincides with the addition of the exact chemical
equivalence, it is called the equivalence point or stoichiometric or theoretical endpoint,
thus allowing the amount of A to be found from known amounts of B added up to this
point, the reacting weight ratio of A to B being known from stoichiometry or otherwise.
Terms for varieties of titration can reflect the nature of the reaction between A
and B. Thus, there are acid–base, complexometric, chelatometric, oxidation–reduction,
and precipitation titrations. Additionally, the term can reflect the nature of the
titrant, such as acidimetric, alkalimetric, and iodometric titrations as well as coulometric
titrations, in which the titrant is generated electrolytically rather than being added
as a standard solution.
