The chemical formula of hypobromous acid is 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-
HBrO is the chemical formula for hypobromous acid. It is weak and unstable. Other names for it are bromonol or bromic acid.
HBro is a covalent compound. It is formed by sharing of electrons between hydrogen and bromine atoms.
HBrO is a weak acid. It can donate a proton in solution, which classifies it as acidic.
Hypobromous Acid
The chemical formula of hypobromous acid is HBrO.
H2SO4, HClO3, HClO4, HNO3, HI, HCl, HBr are the strong acids. Some weak acids are HF, HSO4-, CH3COOH (acetic acid, found in vinegar), HCN, HIO, HBrO, HIO3, HNO2
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-
HBrO is the chemical formula for hypobromous acid. It is weak and unstable. Other names for it are bromonol or bromic acid.
HBro is a covalent compound. It is formed by sharing of electrons between hydrogen and bromine atoms.
HBrO is a weak acid. It can donate a proton in solution, which classifies it as acidic.
Formula: HBrO
The conjugate acid of BrO is HBrO, which is formed when BrO accepts a proton (H+). It has one more hydrogen ion than its parent molecule BrO.
The chemical formula for hydrobromous acid is HBrO. It is a weak acid that contains bromine in its +1 oxidation state.
In HBrO, the main intermolecular force present is dipole-dipole interactions due to the permanent dipoles in the H-Br and Br-O bonds. Additionally, there may be some hydrogen bonding between hydrogen in HBrO and an electronegative atom in another molecule.
The oxidation number of bromine in aqueous HBrO (hypobromous acid) is +1. This is because in HBrO, oxygen is more electronegative than bromine and will have an oxidation number of -2, leaving bromine with a +1 oxidation state to balance the overall charge of the molecule.