This is definitely an acid. It is the chemical formula for hydrobromic acid, which is actually one of the six strongest acids. It will dissociate immediately in water to form a high concentration of the H+ ion, and the concentration of that ion is what determines the pH of the substance. High ion concentration, low pH, strong acid.
Hydrobromic Acid
HBr is hydrobromic acid. Simlarly for the other halogens. HF = hydrofluoric acid HCl = hydrochloric acid HI = hydroiodic acid (Careful with the spelling of this one). HAs = hydroastinic acid ( Not characterised).
Hydrobromic acid
When NOT dissolved in water it is 'hydrogen bromide'. When dissolved in water it is 'hydrobromic acid'.
In the reaction, HBr donates a proton (H+) to H2O, making HBr the acid and H2O the base. The resulting products are Br- (conjugate base of HBr) and H3O+ (conjugate acid of H2O).
Hydrobromic Acid
HBr is hydrobromic acid. Simlarly for the other halogens. HF = hydrofluoric acid HCl = hydrochloric acid HI = hydroiodic acid (Careful with the spelling of this one). HAs = hydroastinic acid ( Not characterised).
The correct answer is "hydrobromic acid".
HBr is hydrogen bromide.
Hydrobromic acid
Hydrobromic acid solution
When NOT dissolved in water it is 'hydrogen bromide'. When dissolved in water it is 'hydrobromic acid'.
In the reaction, HBr donates a proton (H+) to H2O, making HBr the acid and H2O the base. The resulting products are Br- (conjugate base of HBr) and H3O+ (conjugate acid of H2O).
The chemical formula of hydrobromic acis is HBr.
Hydrogen Bromine Acid
HF = Hydrofluoric Acid HCl =- Hydrochloric Acid HBr = Hydrobromic Acid HI = Hydroiodic Acid .
HBr is an acid. It gives hydroxonium ions and bromide ions when dissolving in water.