trigonal pyramidal
The molecular geometry of boron tribromide (BBr3) is trigonal planar. The boron atom is surrounded by three bromine atoms, creating a trigonal planar shape with bond angles of 120 degrees.
Molecular nitrogen is: N2 Molecular bromide is: Br2 Nitrogen tribromide is: NBr3
NBr3 Covalent
Yes, there is Nitrogen Tribromide: NBr3
If you want to ask questions about "which of these", then I suggest that you make sure that there is something that is following.
The molecular geometry of a nitrogen molecule is linear.
The molecular geometry of boron tribromide is trigonal planar. This is because boron has sp2 hybridization, and the molecule has three surrounding bromine atoms arranged in a planar triangle around the boron atom.
The molecular geometry of boron tribromide (BBr3) is trigonal planar. The boron atom is surrounded by three bromine atoms, creating a trigonal planar shape with bond angles of 120 degrees.
Molecular nitrogen is: N2 Molecular bromide is: Br2 Nitrogen tribromide is: NBr3
The name for the compound NBr5 is nitrogen pentabromide. It is a chemical compound composed of one nitrogen atom and five bromine atoms.
The molecular geometry of NO2 is linear. N(triple bond)N(single bond)O
NBr3 Covalent
The molecular geometry of nitrogen trifluoride (NF3) is trigonal pyramidal. It consists of a central nitrogen atom bonded to three fluorine atoms and has one lone pair of electrons, leading to a trigonal pyramidal shape.
Nitrogen tribromide was discovered in 1858 by the chemist Alfred Stock. It is synthesized by the reaction of ammonia with bromine.
BBr3 itself is the molecular formula of Boron Tribromide.
Bent
Yes, there is Nitrogen Tribromide: NBr3