Hydrogen.
Aluminum nitrate is a slightly acidic salt.
The salt formed when carbonic acid and aluminum hydroxide mix is aluminum carbonate. This reaction occurs when the acid-base reaction between carbonic acid and aluminum hydroxide takes place, resulting in the formation of aluminum carbonate salt.
When an aluminum acetate solution reacts with lithium hydroxide, aluminum hydroxide and lithium acetate are formed. Aluminum hydroxide is a white solid that precipitates out of solution, while lithium acetate remains in solution. This reaction is a double displacement reaction that forms a precipitate.
A double replacement reaction takes place when aluminum sulfate reacts with ammonium hydroxide; the precipitate will be aluminum hydroxide (the ammonium sulfate will remain in solution, and we're assuming the reactants were already in aqueous solution.) Most metallic hydroxides are insoluble. The balanced equation for this reaction, showing the appropriate states of matter is:Al2(SO4)3(aq) + 6NH4OH(aq) --> 3(NH4)2SO4(aq) + 2Al(OH)3(s)
When solutions of aluminum chloride and sodium hydroxide are mixed, a white precipitate of aluminum hydroxide is formed, along with the production of sodium chloride. This is a double displacement reaction where the aluminum ions in aluminum chloride switch places with the sodium ions in sodium hydroxide.
Since aluminium oxide is an amphoteric oxide, it does react with the alkali sodium hydroxide in an aqueous medium. It is an acid base reaction.
Aluminum nitrate is a slightly acidic salt.
The salt formed when carbonic acid and aluminum hydroxide mix is aluminum carbonate. This reaction occurs when the acid-base reaction between carbonic acid and aluminum hydroxide takes place, resulting in the formation of aluminum carbonate salt.
When an aluminum acetate solution reacts with lithium hydroxide, aluminum hydroxide and lithium acetate are formed. Aluminum hydroxide is a white solid that precipitates out of solution, while lithium acetate remains in solution. This reaction is a double displacement reaction that forms a precipitate.
A double replacement reaction takes place when aluminum sulfate reacts with ammonium hydroxide; the precipitate will be aluminum hydroxide (the ammonium sulfate will remain in solution, and we're assuming the reactants were already in aqueous solution.) Most metallic hydroxides are insoluble. The balanced equation for this reaction, showing the appropriate states of matter is:Al2(SO4)3(aq) + 6NH4OH(aq) --> 3(NH4)2SO4(aq) + 2Al(OH)3(s)
When solutions of aluminum chloride and sodium hydroxide are mixed, a white precipitate of aluminum hydroxide is formed, along with the production of sodium chloride. This is a double displacement reaction where the aluminum ions in aluminum chloride switch places with the sodium ions in sodium hydroxide.
When aluminum sulfate reacts with strontium hydroxide, aluminum hydroxide and strontium sulfate are formed as products in a double displacement reaction. Aluminum hydroxide is insoluble in water and will precipitate out of the solution, while strontium sulfate will also be a precipitate since it is insoluble in water.
When aqueous ammonia is added to lime water, a white precipitate of calcium hydroxide is formed as the ammonia reacts with the calcium hydroxide present in the lime water. This reaction can be represented as: Ca(OH)2 + 2NH3 → Ca(NH2)2 + 2H2O.
To determine the grams of aluminum hydroxide obtained from 17.2 grams of aluminum sulfide, we need to consider the stoichiometry of the reaction between aluminum sulfide and water to form aluminum hydroxide. Given the balanced chemical equation, we can calculate the molar mass of aluminum hydroxide and use it to convert the mass of aluminum sulfide to grams of aluminum hydroxide formed.
The products of the reaction between aluminum hydroxide and hydrochloric acid are aluminum chloride and water. This is because the acid-base reaction between the hydroxide anion and the hydrogen ion leads to the formation of water, while aluminum chloride is a salt formed from the aluminum cation and the chloride anion.
When an acid is neutralized by a hydroxide, water and a salt are formed. This reaction is known as a neutralization reaction.
When aqueous sodium hydroxide is added to aqueous beryllium chloride, a white precipitate of beryllium hydroxide (Be(OH)2) is formed. Beryllium hydroxide is insoluble in water, hence it appears as a white solid.