acid +metal ->salt+ hydrogen
eg sulphuric acid + magnesium -> magnesium sulphate+ hydrogen
No, the reaction between an acid and a metal is a redox reaction, not a neutralization reaction. In this reaction, the metal displaces the hydrogen in the acid to form a salt and hydrogen gas. Neutralization reactions occur when an acid reacts with a base to form water and a salt.
The reaction between an acid and a metal is an example of a single-replacement reaction.
Hydrogen gas is typically produced when an acid corrodes metal. This reaction occurs when the acid reacts with the metal to form a metal salt and hydrogen gas as a byproduct.
The reaction represents a single replacement reaction where the metal displaces the hydrogen in the acid to form a salt and releases hydrogen gas as a byproduct.
The acid deprotonates in aqueous solution, and the negative ions induce nucleophilic attack on the positively-charged metal ions, removing metal ions from the metal and combining with them to form a salt. The protons that dissociated into solution quite often recombine with each other to form diatomic hydrogen, which bubbles out of the solution as a gas. This process of removing metal ions from the metal itself to be recombined into a salt with the original acid is called corrosion. So, in a nutshell, the acid breaks down into ions, eats away bits of metal atoms from the original metal mass, combines into salt with the acid, and the hydrogen from the acid recombines to hydrogen gas, which bubbles out of the solution.
When you mix metal oxide and acid, you typically get a salt and water. The metal in the metal oxide reacts with the acid to form a salt, while the oxygen in the metal oxide combines with hydrogen from the acid to form water.
Two substances that can react with hydrochloric acid to form salt are metal oxides and metal carbonates. When metal oxides react with hydrochloric acid, they form metal chloride and water. When metal carbonates react with hydrochloric acid, they form metal chloride, carbon dioxide, and water.
Acid is formed when a substance donates a proton, while a metal is a type of element. Acids and metals can react to form salts, where the metal displaces hydrogen from the acid to form positive metal ions and negative anions from the acid, resulting in a salt compound.
When an acid reacts with a metal, it typically forms a salt and hydrogen gas. The metal displaces hydrogen from the acid, leading to the release of hydrogen gas and the formation of a salt made up of the metal cation and the anion from the acid.
In the context of a metal reacting with an acid to form a salt, "salt" refers to an ionic compound that is composed of a metal cation from the metal and an anion from the acid. For example, when sodium metal reacts with hydrochloric acid, it forms sodium chloride, which is a salt composed of the sodium cation and chloride anion.
When a metal oxide reacts with a dilute acid, it forms a salt and water. The metal in the oxide replaces the hydrogen ion in the acid to form the salt.
When metals react with acid, they typically form a salt of the metal and hydrogen gas. The metal displaces the hydrogen from the acid, resulting in the formation of a metal salt and the release of hydrogen gas as a byproduct.
Acetic acid is a weak acid that does not completely dissociate in water to form a salt with a metal cation. Instead, it forms a normal salt through a reaction with a base, where the acidic hydrogen is replaced by a metal cation to form a salt like sodium acetate.
No, the reaction between an acid and a metal is a redox reaction, not a neutralization reaction. In this reaction, the metal displaces the hydrogen in the acid to form a salt and hydrogen gas. Neutralization reactions occur when an acid reacts with a base to form water and a salt.
The resultant substances are a salt and gaseous hydrogen.
Metal in broad sense can be defined as ... which reacts with acid to form salt and water.
Metal oxides react with acids to form salts and water. The metal oxide will typically dissolve in the acid to produce the corresponding metal salt and water as the product. This reaction is an example of a neutralization reaction.