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carbon dioxide
The reaction between an acid and a metal is an example of a single-replacement reaction.
the number of hydrogen ions (charges) given by the acid will be the same as the anions
Electrolytes that release ions that combine with hydrogen atoms are called bases.
Triproctic Acids contain three ionizable hydrogen ions. such as H3PO4
carbon dioxide
One example of a redox reaction is the reaction between magnesium metal and hydrochloric acid to form magnesium chloride and hydrogen gas. In this reaction, magnesium is oxidized (loses electrons) to form Mg2+ ions, while hydrogen ions in the acid are reduced (gain electrons) to form hydrogen gas.
the acid reacts with basis in a neutralization reaction in which the hydrogen ions donated by an acid react with the hydroxide ions donated by the base product a neutral product called water which is a reason why this reaction is known as a neutralization reaction =P
When an acid solution is mixed with a basic solution, there will be a neutralization reaction in which hydrogen ions from the acid will combine with hydroxide ions from the base, to form water.
Citric acid causes two chemical reactions with zinc- oxidation and reduction. Oxidation is where the acid removes the two electrons on the outer energy shell of each zinc atom. Reduction is where the hydrogen ions in the citric acid accept the electrons being released by the oxidation reaction and form the hydrogen gas. Hope this helps :)
The reaction between an acid and a metal is an example of a single-replacement reaction.
Acid has Hydrogen Ions..it mostly forms when H2O is broken down into H+( hydrogen ions) and OH(Hydroxyl)
Carbonic acid. The reaction is: H2O + CO2 -----> H2CO3 ----> H+ + HCO3- The reaction is catalysed by an enzyme called carbonic anhydrase. After it has formed it separates (dissociates) into hydrogen ions (H+) and hydrogen carbonate ions (HCO3-).
acids
this is because it has h+ ions (hydrogen ions) which makes it an acid
Acid.
Water molecules are formed as a result of the reaction between hydrogen and hydroxyl ions.