Bromic Acid Formula

Bromic Acid Formula

Bromic Acid is also named hydrogen bromate. Bromic Acid is an oxoacid. It only exists in the aqueous solution. The Bromic Acid Formula is HBrO3. The aqueous solution is observed as a colourless solution and it turns into yellow colour at room temperature since it gets decomposed into bromine. Sulphuric acid reacts with barium bromate to form the product as Bromic Acid. Barium sulfate is also formed as a result of this reaction in the form of a precipitate and it is insoluble in water. It is important to know all the properties of Bromic Acid to understand its application in chemistry. It is also necessary to know about the compounds that can be formed with the help of Bromic Acid. It mainly forms salts called bromates which are good oxidising agents.

Bromic Acid Formula Structure

To understand the structure of Bromic Acid it is important to know the Bromic Acid Formula. In the chemical structure of Bromic Acid, the carbon atoms are implied to be at the corner(s) and hydrogen atoms attached to carbon atoms are not shown; instead, it is assumed that each carbon atom is associated with enough hydrogen atoms to give it four bonds. The ball-and-stick model, which shows both the three-dimensional position of the atoms and the bonds between them, is the foundation for the 3D chemical structure image of Bromic Acid. Therefore, to provide a clearer view of the atoms and bonds throughout the chemical structure, the spheres’ radius is smaller than their rod lengths.

Properties Of Bromic Acid

Bromic Acid’s molecular weight is 128.91 g/mol. When chlorine is passed through bromine water Bromic Acid is formed. The Bromic Acid Formula is given by HBrO3. It is obtained by a reaction of sulphuric acid with barium bromate.

What is Bromic Acid?

Bromic Acid is one of the oxoacids and it is also known as hydrogen bromate. The molecular formula or Bromic Acid Formula is HBrO3. The salts of Bromic Acid are called bromates. The bromates are very powerful oxidising agents and are used in speciality pyrotechnical mixtures. The lower concentration of Bromic Acid dissociates into hydronium and bromate but the higher concentration decomposes into bromine.

The Formula for Bromic Acid:

The representation of the Bromic Acid Formula is given as HBrO3. It is important to know the formula of Bromic Acid to understand the chemical reactions related to it. Learning to write accurate Bromic Acid Formula is crucial.

Properties of Bromic Acid:

Bromic Acid is present in the form of a solution. It is an oxidising agent and has a corrosive nature. Bromic Acid decomposes into yellow colour at room temperature. The salts of Bromic Acid are called bromates. They are also used as oxidising agents. Bromides go through electrochemical oxidation to form bromates. HBrO3 is the appropriate Bromic Acid Formula.


There are various uses of Bromic Acid in Chemistry. Making bromates is possible with Bromic Acid. The production of inorganic bromides is the primary use of Hydrobromic Acid. In particular, sodium, calcium, and zinc bromides. It can also be utilised as a reagent to produce organobromine compounds. It also facilitates the extraction of certain ores and alkylation reactions. The mucous membranes’ water can release oxygen-free radicals because bromine is a potent oxidising agent. In the actions of neurotransmitters and transport systems, bromide ions are thought to substitute chloride ions. Thus, it is having an impact on a variety of synaptic processes. Students can visit the Extramarks website for comprehensive study materials pertaining to this topic.

Solved Examples on Bromic Acid Formula

It is important to practice reactions and examples related to Bromic Acid. Regular practice helps in understanding the usage of Bromic Acid and the products that can be formed with reactions. All the questions related to Bromic Acid Formula should be solved consistently. It is important to note that Bromic Acid Formula is HBrO3.

Chemistry Related Formulas
Acetaldehyde Formula Zinc Sulfate Formula
Tartaric Acid Formula
Aluminium Oxide Formula Trichloroacetic Acid Formula
Barium Chloride Formula Ammonium Bromide Formula
Calcium Chloride Formula Ammonium Nitrite Formula
Hydrogen Formula Hydrobromic Acid Formula
Magnesium Hydroxide Formula Hydroiodic Acid Formula
Magnesium Oxide Formula Hypophosphoric Acid Formula
Mole Fraction Formula Iron Ii Oxide Formula
Nitrite Formula Lithium Hydroxide Formula