1. this method can be used with very diluted solutions=2. this method can be used with colored or turbid solutions in which end point can not== be seen by eye==3. this method can be used in which there is no suitable indicator==4.has many applications , i.e. it can be used for acid base , redox ,precipitation, or complex titrations=
types of conductometric titration: acid base titration complexometric titration replacement titration redox titration precipitation titration
'Conductometric' IS a special case of volumetric analysis, it's the way of measuring the endpoint of titration. An other method is 'potentiometric' by measurement of pH.
With conductometric titration, one of the ions is replaced by the other. A disadvantage of this technique is that concentration of other electrolytes can be a problem.
moher/wolher
titration
types of conductometric titration: acid base titration complexometric titration replacement titration redox titration precipitation titration
'Conductometric' IS a special case of volumetric analysis, it's the way of measuring the endpoint of titration. An other method is 'potentiometric' by measurement of pH.
With conductometric titration, one of the ions is replaced by the other. A disadvantage of this technique is that concentration of other electrolytes can be a problem.
moher/wolher
titration
Iam not dut why you not answer me
they form nutral solution
it give sharp end point for coloured soln. even for those that are precipitate out in other volumetric titration
conductometric titration of a strong acid with a strong base makes the sloution neutral
Coductometric titration: is based on the suddenly change of the conductivity at the equivalence point.Volumetric titration: the volume of a standardized titrant is measured at the eqivalence point.
No
A rule don't exist; this depends on the choice of titrant, desired accuracy, price, solution to be analyzed, instruments and glassware in laboratory, etc.