Hydrogen bromide is covalent. Pure HBr has a melting point of -114.20C and a boiling point of -85.10C. The molecule has a dipole moment which is due to the poalr nature of the chemical bond. In water HBr is a strong acid, hydrobromic acid, and is pretty well completely dissocaiated.
A. KF contains ionic bonding, not covalent bonding. B. N2, D. HBr, and E. NO2 contain covalent bonds. C. Cl4 is not a valid compound; the correct formula is likely Cl2, which also contains covalent bonds.
No, AgI is not a binary molecular compound. It is a binary ionic compound composed of silver (Ag) cations and iodide (I) anions held together by ionic bonds.
The name of the ionic compound AlP is aluminum phosphide.
If a compound contains at least one metal atom and at least one nonmetal atom, the compound is ionic. Na (Sodium) is a metal. Br (Bromine) is a nonmetal. Therefore, the compound NaBr is ionic.
K2S is the formula for the ionic compound formed from potassium and sulfur.
The name for the ionic compound HBr is hydrogen bromide.
This compound is HBr.
Polar!
molecular
No, HBr is not covalent. It is an ionic compound composed of hydrogen (H) and bromine (Br) ions. The bond between hydrogen and bromine is ionic, where hydrogen donates an electron to bromine to form a bond.
HBr is an acid because it can donate a hydrogen ion when dissolved in water. It is a covalent compound as it is made up of nonmetals (hydrogen and bromine) sharing electrons in a covalent bond.
Hydrobromic acid is a covalent compound. It consists of a hydrogen atom bonded covalently to a bromine atom in a molecule.
Molecular
Yes, HBr is a molecular compound. It consists of covalent bonds between hydrogen and bromine atoms, forming molecules of HBr.
HBr is hydrogen bromide (or hydrobromic acid).
Yes, for the most part HBr is molecular. It has some slight ionic character as well.
Hydrogen (H) and bromine (Br) are the two elements that make up HBr. It is a compound formed by the combination of these two elements.