Nope, that won't work. Nitrogen can share electrons with 3 bromines to form nitrogen tri-bromide. That way, everybody has a full octet. The formula is NBr3.
Single bond.
No, molecular bromine is bonded by a single bond.
Yes. The gas is Br2 and the bons is a single covalent bond.
N2O3 is a blue liquid. It contains a single nitrogen -nitrogen bond.
Yes, a Bromine atom can bond to another similar Bromine atom, to make a Bromine molecule: Br2
Nitrogen and bromine will form a covalent bond; they are both nonmetals.
Nitrogen and bromine will form a covalent bond; they are both nonmetals.
Single bond.
Nitrogen is not a bond; it is the single element Nitrogen.
It is a non-polar covalent bond
No, molecular bromine is bonded by a single bond.
Br2, bromine has a single covalent bond
Yes. The gas is Br2 and the bons is a single covalent bond.
No, both Nitrogen(N) and Bromine(Br) are non-metals. Therefore they must be covalent formed by the sharing of electrons. N forms a single bond with each of the Br atoms.
N2O3 is a blue liquid. It contains a single nitrogen -nitrogen bond.
Yes, a Bromine atom can bond to another similar Bromine atom, to make a Bromine molecule: Br2
The bond between two atoms in a diatomic molecule of hydrogen, nitrogen, oxygen, fluorine, chlorine, bromine, or iodine is a nonpolar covalent bond.