Yes,they can undergo a neutralization reaction, the reaction between sulfuric acid and ammonia is feasible.
Sulfuric acid will react with magnesium and most other metals to produce hydrogen gas.
Iron sulfate (ferrous sulfate) does not react with sulfuric acid because it is already in the form of a salt with sulfuric acid - FeSO4. However, iron metal can react with sulfuric acid to form iron sulfate and hydrogen gas.
hydrogen gasmagnesium + sulfuric acid → magnesium sulfate + hydrogen
Copper carbonate and sulfuric acid react to produce copper sulfate, carbon dioxide gas, and water.
Sulfuric acid and copper carbonate react to produce copper sulfate, carbon dioxide gas, and water.
Sulfuric acid will react with magnesium and most other metals to produce hydrogen gas.
Iron sulfate (ferrous sulfate) does not react with sulfuric acid because it is already in the form of a salt with sulfuric acid - FeSO4. However, iron metal can react with sulfuric acid to form iron sulfate and hydrogen gas.
hydrogen gasmagnesium + sulfuric acid → magnesium sulfate + hydrogen
Copper carbonate and sulfuric acid react to produce copper sulfate, carbon dioxide gas, and water.
H2s
Zinc and sulfuric acid will react to form zinc sulphate and hydrogen gas.
Sulfuric acid and copper carbonate react to produce copper sulfate, carbon dioxide gas, and water.
Yes, silver would react with dilute sulfuric acid to produce silver sulfate and hydrogen gas. This reaction involves the displacement of hydrogen ions from the acid by the silver metal.
Magnesium will react with sulfuric acid to produce magnesium sulfate.
The reaction between concentrated sulfuric acid and germanium would produce germanium sulfate and sulfur dioxide gas.
Magnesium reacts with sulfuric acid because it is a reactive metal that can displace hydrogen from the acid. When magnesium comes into contact with sulfuric acid, it undergoes a redox reaction, where magnesium is oxidized, and hydrogen ions from the acid are reduced to form hydrogen gas. This reaction produces magnesium sulfate and hydrogen gas as products. The overall reaction illustrates magnesium's ability to react vigorously with acids, producing heat and gas.
Hydrochloric acid and sulfuric acid will react to form hydrogen chloride gas and sulfuric acid. This reaction typically takes place in a two-step process where the initial reaction forms hydrochloric acid and sulfuric acid, which then reacts further to produce hydrogen chloride gas and sulfuric acid.