HBrO is a weak acid. In solution it partially deprotinates to form BrO- and H+
HBr is hydrobromic acid, a strong acid.
No, HBr is
The conjugate base of an acid is the species we get from from deprotonating it (the conjugate base is usually an anion). If we deprotonate hypobromous acid, HBrO, we can see that the hypobromite ion (BrO-) is the conjugate base. HBrO---> H+ + BrO-
The chemical formula for hypo bromic acid is HBrO.
HBrO
HBrO is the chemical formula for hypobromous acid. It is weak and unstable. Other names for it are bromonol or bromic acid.
Bromine reacts with water to form a mixture of Hydrobromic Acid, HBr, and Hypobromous Acid, HBrO.
The conjugate base of an acid is the species we get from from deprotonating it (the conjugate base is usually an anion). If we deprotonate hypobromous acid, HBrO, we can see that the hypobromite ion (BrO-) is the conjugate base. HBrO---> H+ + BrO-
The chemical formula for hypo bromic acid is HBrO.
HBrO
HBrO is the chemical formula for hypobromous acid. It is weak and unstable. Other names for it are bromonol or bromic acid.
Formula: HBrO
Hypobromous Acid
Compound: HBrO classication: oxoacid
The conjugate acid for this anion is HBrO, or hypobromous acid. Finding the formula of a conjugate acid is simple actually. All you have to do is remove a negative charge and ad an "H" at the beginning.
Bromine reacts with water to form a mixture of Hydrobromic Acid, HBr, and Hypobromous Acid, HBrO.
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
Bromite is BrO2- (from the acid HBrO) so its charge is -1, minus one.
An acid can turn into a base if you mix a much stronger base with it! That way the base acid overpowers the acid and makes the acid a base!