They will react together. IT will form aluminium hydroxide.
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No, adding solid sodium hydroxide to neutralize hydrochloric acid (HCl) would not cause sodium chloride to redissolve. The reaction between sodium hydroxide and hydrochloric acid forms water and sodium chloride, which remains in its dissolved form. The addition of solid sodium hydroxide would simply further neutralize the acid and increase the concentration of the resulting sodium chloride solution.
The two common ways to prepare ammonium sulphate are neutralizing ammonia gas with sulfuric acid or reacting ammonium hydroxide with sulfuric acid. In the first method, ammonia gas is bubbled through sulfuric acid to form ammonium sulphate. In the second method, ammonium hydroxide is slowly added to sulfuric acid to produce ammonium sulphate.
When ammonia hydroxide solution is added to aluminum ammonium sulfate, it can lead to the formation of aluminum hydroxide, a precipitate, due to the reaction between the aluminum ions and the hydroxide ions from the ammonia. This process decreases the solubility of aluminum ions in the solution. Additionally, the increase in pH from the ammonia hydroxide can affect the stability of the aluminum ammonium sulfate complex, potentially resulting in further chemical changes.
When aluminum is added to water, it reacts with water to produce aluminum oxide and hydrogen gas. The chemical equation for this reaction is: 2Al + 6H2O → 2Al(OH)3 + 3H2. This reaction is highly exothermic and can generate heat and flammable hydrogen gas.
When barium hydroxide is added to ammonium chloride, barium chloride and ammonium hydroxide are formed. Barium chloride is an insoluble white precipitate, while ammonium hydroxide is a colorless gas that can be detected by its strong smell.
When ferric chloride is added to ammonium hydroxide, a precipitate of iron(III) hydroxide, Fe(OH)3, is formed. This is due to the reaction between the iron(III) ion in ferric chloride and the hydroxide ion in ammonium hydroxide.
When sodium hydroxide is added to ammonium chloride and heated, ammonia gas is evolved as a result of the reaction between ammonium chloride and sodium hydroxide. This reaction produces water, sodium chloride, and ammonia gas.
When ammonium hydroxide is added to iron (III) chloride, a brown precipitate of iron (III) hydroxide is formed. This brown color is characteristic of iron (III) hydroxide.
What is the evidence for a shift in equilibrium's when ammonium chloride was added to the stock solution in hydroxide phenolphthalein? In: http://wiki.answers.com/Q/FAQ/2455 [Edit categories]
When ammonium hydroxide and sodium chloride mix, they react to form ammonium chloride, which is a white solid precipitate. The dry ice (solid carbon dioxide) added to the solution lowers the temperature, which promotes the formation of the solid precipitate.
The chemical equation for this reaction is: NH4Cl + NaOH → NaCl + NH4OH
Oh, dude, when you mix ammonium hydroxide with iron (III) chloride, you get a chemical reaction that forms a reddish-brown precipitate of iron (III) hydroxide. It's like a little chemistry magic show, but with more safety goggles and less top hats. So, yeah, that's what goes down when those two chemicals get cozy.
Both are solids. They would probably do no more than form a mixture. They would probably not react with one another.
When ammonium sulfate is added to a hydroxide solution, such as sodium hydroxide, it will undergo a double displacement reaction. Ammonium sulfate will react with the hydroxide ion to form ammonia gas and water, along with the corresponding sulfate compound. This reaction is exothermic and can release heat.
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.
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