Neutralisation.
Sodium hydroxide + Acetic Acid = Sodium Acetate + Water.
NaOH + CH3COOH = CH3COONa + H2O
NB THe modern IUPAC name for Acetic Acid is Ethanoic Acid/Sodium Ethanoate.
When sodium hydroxide is added to acetic acid, a neutralization reaction occurs, resulting in the formation of sodium acetate and water. This reaction also releases heat. Additionally, the resulting solution will be basic due to the presence of excess hydroxide ions.
When sodium hydroxide solution is added to ammonium hydroxide, a double displacement reaction occurs. Ammonium hydroxide is a weak base and sodium hydroxide is a strong base. The reaction produces water, sodium hydroxide, and ammonia gas.
No. Water and sodium hydroxide will form a solution, but no reaction occurs.
When acetic acid reacts with potassium hydroxide, a neutralization reaction occurs to form water and potassium acetate. This can be observed by the disappearance of the acidic properties of acetic acid (sour taste, pH less than 7) and the formation of a salt (potassium acetate) that may precipitate out of solution, depending on the concentrations of the reactants.
When you combine these substances, a metathesis reaction occurs. In this reaction, copper becomes bonded to hydroxide ions. Because copper hydroxide is insoluble, it precipitates out of solution.
When sodium hydroxide is added to acetic acid, a neutralization reaction occurs, resulting in the formation of sodium acetate and water. This reaction also releases heat. Additionally, the resulting solution will be basic due to the presence of excess hydroxide ions.
A change in the pH.
When sodium hydroxide solution is added to ammonium hydroxide, a double displacement reaction occurs. Ammonium hydroxide is a weak base and sodium hydroxide is a strong base. The reaction produces water, sodium hydroxide, and ammonia gas.
No. Water and sodium hydroxide will form a solution, but no reaction occurs.
When acetic acid reacts with potassium hydroxide, a neutralization reaction occurs to form water and potassium acetate. This can be observed by the disappearance of the acidic properties of acetic acid (sour taste, pH less than 7) and the formation of a salt (potassium acetate) that may precipitate out of solution, depending on the concentrations of the reactants.
When you combine these substances, a metathesis reaction occurs. In this reaction, copper becomes bonded to hydroxide ions. Because copper hydroxide is insoluble, it precipitates out of solution.
When a solution of sulfuric acid is added to a solution of ammonium hydroxide, a neutralization reaction occurs. The sulfuric acid will donate protons to the ammonium hydroxide, forming water and ammonium sulfate salt. Heat may also be produced in the process.
Neutralization reaction occurs between dilute hydrochloric acid and sodium hydroxide, resulting in the formation of water and a salt (sodium chloride).
When iron oxide is added to sodium hydroxide solution, a reaction occurs to form iron(III) hydroxide and water. The iron(III) hydroxide will appear as a brownish precipitate in the solution, while water remains as a liquid.
When sodium hydroxide solution is added to hydrochloric acid in a beaker, a chemical reaction occurs, resulting in the formation of water and sodium chloride salt. This reaction is exothermic, meaning it releases heat energy. The pH of the resulting solution will increase due to the presence of sodium hydroxide, which is a strong base.
When water reacts with lye, a chemical reaction occurs that produces heat and forms a solution called sodium hydroxide. This reaction is exothermic, meaning it releases energy in the form of heat. The sodium hydroxide solution is highly alkaline and can be corrosive, so it is important to handle it carefully.
When you mix sodium hydroxide with citric acid, a neutralization reaction occurs. The sodium hydroxide (a base) reacts with the citric acid (an acid) to form water and sodium citrate, a salt. This reaction releases heat and increases the pH level of the solution.