A bond between chlorine and bromine, Cl-Br, would be polar covalent.
Bromine is a nonmetal as well as chlorine. A bond between a nonmetal and a nonmetal is a covalent bond.
A covalent bond exists between a carbon atom and a chlorine atom when they share electrons to achieve a stable electron configuration. Chlorine is more electronegative than carbon, so the shared electrons are pulled closer to the chlorine atom.
The bond between carbon and chlorine in CH3Cl is a polar covalent bond. The chlorine atom is more electronegative than the carbon atom, causing the shared electrons to be unequally shared, leading to a partial negative charge on the chlorine atom and a partial positive charge on the carbon atom.
ionic bond
Hydrogen bromide (HBr) forms a polar covalent bond, where the hydrogen atom shares its electron with the bromine atom. This results in the hydrogen atom carrying a partial positive charge and the bromine atom carrying a partial negative charge, making it a polar molecule. This bond is relatively strong and stable compared to other hydrogen halide bonds.
Yes, a Bromine atom can bond to another similar Bromine atom, to make a Bromine molecule: Br2
Bromine is a nonmetal as well as chlorine. A bond between a nonmetal and a nonmetal is a covalent bond.
Polar- chlorine and bromine have different electronegativities.
A covalent bond exists between a carbon atom and a chlorine atom when they share electrons to achieve a stable electron configuration. Chlorine is more electronegative than carbon, so the shared electrons are pulled closer to the chlorine atom.
Chlorine and bromine can form a covalent bond when they share electrons. This type of bond involves the sharing of electrons between the two atoms, resulting in a stable molecule.
Generally the ionic bond is formed between a metal and a nonmetal (cation and anion). As an example, sodium and bromine: sodium bromide, NaBr.
Yes, Cl-Br is a polar covalent bond compound because there is a difference in electronegativity between chlorine (3.16) and bromine (2.96), causing an uneven distribution of electrons in the bond. This results in a partial negative charge on the chlorine atom and a partial positive charge on the bromine atom.
Se-Cl bonds
Yes, BrO3 has a double bond between bromine and one of the oxygen atoms. The bromine atom is in the +5 oxidation state, resulting in a formal charge of 0 for the bromine atom and -1 for the oxygen atom to which it is double bonded.
Yes, chlorine trifluoride (ClF3) does have a dative bond. The bond between the chlorine atom and one of the fluorine atoms is a dative bond, where both electrons in the bond come from the chlorine atom.
HC1 is a covalent bond between hydrogen and chlorine. Each hydrogen atom shares its electron with the chlorine atom to form a stable molecule.
The bond between carbon and chlorine in CH3Cl is a polar covalent bond. The chlorine atom is more electronegative than the carbon atom, causing the shared electrons to be unequally shared, leading to a partial negative charge on the chlorine atom and a partial positive charge on the carbon atom.