Trigonal planar
The molecular geometry of nitrogen tribromide (NBr3) is trigonal pyramidal. Nitrogen has a lone pair of electrons, causing the three bromine atoms to form a trigonal pyramid around the central nitrogen atom.
BBr3 is boron tribromide. It is a chemical compound composed of one boron atom and three bromine atoms.
The molecule is boron trifluoride (BF3). The boron atom is at the center, bonded to three fluorine atoms through covalent bonds. The molecule has a trigonal planar molecular geometry due to the arrangement of the atoms around the central boron atom.
The molecular geometry of carbon tetra bromide is tetrahedral.
phosphorus tribromide.
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.
BBr3 itself is the molecular formula of Boron Tribromide.
The molecular geometry of nitrogen tribromide (NBr3) is trigonal pyramidal. Nitrogen has a lone pair of electrons, causing the three bromine atoms to form a trigonal pyramid around the central nitrogen atom.
The chemical formula for boron tribromide is BBr3.
The chemical formula for boron tribromide is BBr3.
The covalent compound BBr3 is named boron tribromide.
BBr3 is boron tribromide. It is a chemical compound composed of one boron atom and three bromine atoms.
The chemical formula for boron tribromide is BBr3. It is a colorless, fuming liquid that is used in organic synthesis as a reagent.
The chemical symbol for boron tribromide is BBr3. It is a colorless liquid with a pungent odor and is used in organic synthesis reactions.
The atomic mass of boron is 10.811 while that of bromine is 79.904. Thus the ratio of the mass of bromine to the total mass of boron tribromide must be: 3(79.904)/[3(79.904) + 10.811] = 0.9568. The required mass of BBr3 thus is 11.8/0.9568 = 12.3 g, to the justified number of significant digits.
The resonance of boron tribromide (BBr3) involves the delocalization of electrons around the boron atom due to the presence of the three bromine atoms. This results in the stabilization of the molecule and a more even distribution of charge.
The compound that would form between boron and bromine is boron tribromide, which has the formula BBr3. It is a colorless, fuming liquid with a pungent odor and is commonly used in organic synthesis as a Lewis acid catalyst.