HBr
When hydrochloric acid is added to a mixture of bromine and water, bromine will react with hydrochloric acid to form hydrogen bromide and hypobromous acid. This reaction can then proceed further to form bromine chloride and bromine, depending on the conditions present.
2,4,6-tribromophenol is formed by the loss of CO2 (decarbonylation).
Bromine itself is not considered an acid. However, it can react with water to a small degree to form hydrobromic acid (HBr), a strong acid and hypobromous acid (HBrO) a weak acid. Br2 + H2O --> HBr + HBrO
It derive from the first 2 letters of the word "Bromine".
The reaction between ethanol and bromine produces ethyl bromide as the main product. The reaction involves the substitution of a hydrogen atom in ethanol by a bromine atom, resulting in the formation of a molecule of ethyl bromide.
When hydrochloric acid is added to a mixture of bromine and water, bromine will react with hydrochloric acid to form hydrogen bromide and hypobromous acid. This reaction can then proceed further to form bromine chloride and bromine, depending on the conditions present.
Hydrogen Bromine Acid
Ofcourse Bromine is a halogen becoz derived from sea H2o
Bromic acid is the acid derived from bromite.
Bromine reacts with water to form a mixture of Hydrobromic Acid, HBr, and Hypobromous Acid, HBrO.
If pure bromine is contacted with sulfuric acid, the only possible source of bromine atoms for a potential chemical product is the original bromine itself; the sulfuric acid does not contain any bromine atoms and therefore can not supply any additional atoms to make more bromine.
2,4,6-tribromophenol is formed by the loss of CO2 (decarbonylation).
Hydrobromic acid contains the elements Hydrogen and Bromine and has the formula HBr.
Bromine is derived from the Greek language bromos, with the meaning bad smelling.
Bromine is not an acid or a base. It is a nonmetallic element that exists as a liquid at room temperature and is part of the halogen group on the periodic table. It can react with metals to form bromide compounds.
No it is not an acid.It is a neutral compound.
When D- glucose is treated with bromine water - it oxides the terminal aldehyde to carboxylic acid and the major product is gluconic acid.