what requirements must be satisfied for a reaction to be used in titration
The reaction should be stoichiometric. The reaction should be rapid. The reaction should be specific with no side reactions or interference from other substances. The reaction must be quantitative.
an acid-base titration reaction involves a neutralization reaction.
neutralization of reaction or completion of titration
Internal indicators that are used in titration exist in the titration reaction as either a reactant or a product. External indicators is added to the reaction mixture, but does not exist in the reaction.
Redox Titration refers to some titration based on the redox reaction between the titrant and analyte.
The reaction should be stoichiometric. The reaction should be rapid. The reaction should be specific with no side reactions or interference from other substances. The reaction must be quantitative.
an acid-base titration reaction involves a neutralization reaction.
neutralization of reaction or completion of titration
Internal indicators that are used in titration exist in the titration reaction as either a reactant or a product. External indicators is added to the reaction mixture, but does not exist in the reaction.
indicates end of titration neutralisation of the reaction
Redox Titration refers to some titration based on the redox reaction between the titrant and analyte.
Acid base titration involves neutralization reaction between an acid and a base. whereas redox titration involves redox reaction between an oxidizing agent and reducing agent.
In thermometric titration the reaction enthalpy is used to follow the chemical reaction. I guess it dépends on the titration reaction it can be exothermic or endothermic. ΔHr (molar heat of reaction) negative (indicating an exothermic reaction) or positive (indicating an endothermic reaction
Neutralization.
Iodometric titration is synonymous with redox titration method. Iodine is a universal laboratory reagent because it reacts directly with an array of organic and inorganic substances. Since iodometric titration is a form of redox or oxidation-reduction reaction, it can accurately measure the amount of oxidizing or reducing agents in a chemical reaction. Also, it can be reversed to either direction in an iodine/iodide reaction.
The former is a acid base neutralisation reaction whereas the latter is a redox reaction.
it mainly involves to neutralisation of reaction and shows the rate of reaction