Draw the Lewis structure of bromine pentafluoride, BrF5.

Draw the Lewis structure of bromine pentafluoride, BrF5. Do not include brackets or formal charges. If the molecule exhibits resonance, draw only one (1) of the resonance forms. Hartree-Fock method can be used to help with the drawing. Edit drawing. What is the electron-pair geometry of bromine pentafluoride? What is the shape (molecular geometry) of bromine pentafluoride? What is the hybridization of the central atom? sp3d2

The Correct Answer and Explanation is:

Lewis Structure of BrF5:

1. Determine the total number of valence electrons:
   • Bromine (Br) is in Group 17, so it has 7 valence electrons.
   • Fluorine (F) is also in Group 17, and each fluorine atom has 7 valence electrons. Since there are 5 fluorine atoms, this contributes 5×7=355 \times 7 = 355×7=35 valence electrons.
   • Total valence electrons = 7(Br)+35(F)=427 (Br) + 35 (F) = 427(Br)+35(F)=42 valence electrons.
2. Arrange atoms:
   Bromine is the central atom, as it is less electronegative than fluorine.
3. Connect the atoms with single bonds:
   Place a single bond between Br and each of the five F atoms. Each single bond represents 2 electrons. For 5 bonds, we use 5×2=105 \times 2 = 105×2=10 electrons.
4. Distribute the remaining electrons:
   After forming the bonds, we have 42−10=3242 – 10 = 3242−10=32 electrons left. These will be placed as lone pairs on the fluorine atoms first. Each fluorine atom needs 3 more pairs (6 electrons) to complete its octet. This uses up 5×6=305 \times 6 = 305×6=30 electrons, leaving 2 electrons.
5. Place the remaining electrons on the central atom (Br):
   Bromine, being in Period 4, can accommodate more than 8 electrons. The 2 remaining electrons are placed as a lone pair on the bromine atom.
6. Final Lewis Structure:
   Bromine is surrounded by five single bonds to fluorine atoms, with each fluorine having 3 lone pairs. Bromine also has one lone pair.

Electron-pair Geometry and Molecular Geometry:

• Electron-pair Geometry: Bromine pentafluoride (BrF5) has 6 regions of electron density (5 bonding pairs and 1 lone pair). According to the VSEPR (Valence Shell Electron Pair Repulsion) theory, the electron-pair geometry around the central atom is octahedral.
• Molecular Geometry: The lone pair on bromine occupies one of the positions in the octahedral geometry, leaving the fluorine atoms in a square pyramidal arrangement. Therefore, the molecular geometry of BrF5 is square pyramidal.

Hybridization of the Central Atom:

• The central bromine atom is involved in 5 bonds and 1 lone pair, which requires 6 orbitals. The hybridization of the central atom is sp3d2, which corresponds to an octahedral geometry.

Summary:

• Electron-pair Geometry: Octahedral
• Molecular Geometry: Square pyramidal
• Hybridization: sp3d2

This structure reflects the bonding and geometry of BrF5 as derived from VSEPR theory and the hybridization concept.