Yes, magnesium and hydrochloric acid undergo an acid-base reaction to produce magnesium chloride and hydrogen gas. The magnesium metal donates electrons to the hydrogen ions in the acid, forming magnesium chloride and hydrogen gas as the products.
In acid-base titration, the reaction involves the transfer of protons between the acid and base, with the endpoint usually determined by a pH indicator. Redox titration, on the other hand, involves the transfer of electrons between the oxidizing and reducing agents, with the endpoint typically determined by a change in color or potential. Acid-base titrations are used to determine the concentration of acids or bases, while redox titrations are to determine the concentration of oxidizing or reducing agents.
simply : 'no'. The classic reaction is 'acid + base = salt + water'. The reaction here is that of silver ion with the chloride ion in the acid. A white precipitate of insoluble silver chloride forms. This reaction is that used for testing for chloride ions.
No, the reaction between sodium thiosulfate and dilute hydrochloric acid is not a redox reaction. The reaction involves a series of acid-base reactions and the formation of new compounds but does not involve the transfer of electrons between the reactants.
The reaction between copper and nitric acid is a redox reaction. The copper is oxidized from its elemental form to copper(II) ions, while the nitric acid is reduced to nitrogen dioxide gas.
Yes, magnesium and hydrochloric acid undergo an acid-base reaction to produce magnesium chloride and hydrogen gas. The magnesium metal donates electrons to the hydrogen ions in the acid, forming magnesium chloride and hydrogen gas as the products.
An acid and an alkali/base takes place in a neutralization reaction. For reactions such as redox, precipitation etc. an acid or a base might not take place.
In acid-base titration, the reaction involves the transfer of protons between the acid and base, with the endpoint usually determined by a pH indicator. Redox titration, on the other hand, involves the transfer of electrons between the oxidizing and reducing agents, with the endpoint typically determined by a change in color or potential. Acid-base titrations are used to determine the concentration of acids or bases, while redox titrations are to determine the concentration of oxidizing or reducing agents.
spontaneous redox reaction
No, the reaction between an acid and a metal is a redox reaction, not a neutralization reaction. In this reaction, the metal displaces the hydrogen in the acid to form a salt and hydrogen gas. Neutralization reactions occur when an acid reacts with a base to form water and a salt.
simply : 'no'. The classic reaction is 'acid + base = salt + water'. The reaction here is that of silver ion with the chloride ion in the acid. A white precipitate of insoluble silver chloride forms. This reaction is that used for testing for chloride ions.
Yes, mixing sodium hydroxide with hydrochloric acid to form table salt (sodium chloride) and water is a neutralization reaction. It is not a redox reaction because there is no transfer of electrons between the reactants.
No, the reaction between sodium thiosulfate and dilute hydrochloric acid is not a redox reaction. The reaction involves a series of acid-base reactions and the formation of new compounds but does not involve the transfer of electrons between the reactants.
The reaction between copper and nitric acid is a redox reaction. The copper is oxidized from its elemental form to copper(II) ions, while the nitric acid is reduced to nitrogen dioxide gas.
In the titration of oxalic acid with NaOH, the acid-base reaction involves the neutralization of the acid by the base. However, in the titration of oxalic acid with potassium permanganate, the permanganate ion oxidizes the oxalic acid to carbon dioxide. This difference in reaction mechanisms leads to different equivalence points and color changes in the two titrations.
I cannot answer this question.
The methods of titration include acid-base titration, redox titration, and complexometric titration. Acid-base titration involves the reaction between an acid and a base to determine the concentration of one of the reactants. Redox titration involves oxidation-reduction reactions to determine the concentration of a substance. Complexometric titration involves the formation of a complex between a metal ion and a complexing agent to determine the concentration of the metal ion.