Magnesium will react with sulfuric acid to produce magnesium sulfate.
Magnesium is the metal. Sulfuric acid is a compound.
Yes they are.
The magnesium will react with the acid to produce hydrogen gas and a magnesium salt.
To prepare magnesium sulfate in the lab, you would typically dissolve magnesium oxide or magnesium carbonate in dilute sulfuric acid. The reaction between the magnesium compound and the sulfuric acid will form magnesium sulfate and water. The solution can then be concentrated and crystallized to obtain solid magnesium sulfate.
Magnesium oxalate is insoluble in sulfuric acid. Magnesium oxalate will not dissolve in sulfuric acid as it does not have the necessary chemical properties to react with the acid and form a soluble compound.
Magnesium will react with sulfuric acid to produce magnesium sulfate.
Sulfuric acid will react with magnesium and most other metals to produce hydrogen gas.
Magnesium Sulfate
hydrogen gasmagnesium + sulfuric acid → magnesium sulfate + hydrogen
Yes, magnesium metal will react with dilute sulfuric acid to produce magnesium sulfate and hydrogen gas. This is a common reaction in chemistry labs to study the reactivity of metals with acids.
To make magnesium sulfate, you would use sulfuric acid (H2SO4) and magnesium carbonate (MgCO3) as the starting materials. When sulfuric acid is added to magnesium carbonate, it will react to form magnesium sulfate, carbon dioxide, and water.
Magnesium does not seem to react with dilute aqueous alkalis or bases. However, it does react with acids like sulfuric acid by dissolving in it.
magnesium carbonate + sulfuric acid = magnesium oxide= carbon dioxide
Magnesium can react with both mineral acids (like hydrochloric acid, sulfuric acid, nitric acid) and organic acids (like acetic acid) to produce magnesium salts and hydrogen gas. The reaction typically involves the displacement of hydrogen from the acid by magnesium.
Magnesium is the metal. Sulfuric acid is a compound.
Sure, it will. Magnesium is a very active metal and reacts with all acids to liberate hydrogen gas.