The Hybridization required for central atoms exhibiting trigonal bipyramidal geometry and octahedral geometry is to be stated. The bonding of PF 5 , SF 4 , SF 6 and IF 5 are to be described by using localized electron model. Concept introduction: Hybridization is a theoretical phenomenon which is based upon the concept of the mixing of the atomic orbitals. Central atom in a molecule is a atom which has attached maximum number of atoms around it. Localized electron models are the Lewis structures in which the central atom and the atoms surrounded it are represented in a electron dot diagram. To determine: The Hybridization required for central atoms exhibiting trigonal bipyramidal geometry and octahedral geometry and the bonding of PF 5 , SF 4 , SF 6 and IF 5 by using localized electron model
The Hybridization required for central atoms exhibiting trigonal bipyramidal geometry and octahedral geometry is to be stated. The bonding of PF 5 , SF 4 , SF 6 and IF 5 are to be described by using localized electron model. Concept introduction: Hybridization is a theoretical phenomenon which is based upon the concept of the mixing of the atomic orbitals. Central atom in a molecule is a atom which has attached maximum number of atoms around it. Localized electron models are the Lewis structures in which the central atom and the atoms surrounded it are represented in a electron dot diagram. To determine: The Hybridization required for central atoms exhibiting trigonal bipyramidal geometry and octahedral geometry and the bonding of PF 5 , SF 4 , SF 6 and IF 5 by using localized electron model
Solution Summary: The author explains the Hybridization required for central atoms exhibiting trigonal bipyramidal geometry and octahedral geometry.
Interpretation: The Hybridization required for central atoms exhibiting trigonal bipyramidal geometry and octahedral geometry is to be stated. The bonding of
PF5,SF4,SF6andIF5 are to be described by using localized electron model.
Concept introduction: Hybridization is a theoretical phenomenon which is based upon the concept of the mixing of the atomic orbitals. Central atom in a molecule is a atom which has attached maximum number of atoms around it.
Localized electron models are the Lewis structures in which the central atom and the atoms surrounded it are represented in a electron dot diagram.
To determine: The Hybridization required for central atoms exhibiting trigonal bipyramidal geometry and octahedral geometry and the bonding of
PF5,SF4,SF6andIF5 by using localized electron model
Draw the best Lewis dot structure for BrO₄⁻, being sure to give the electronic geometry, molecular geometry, hybridization of the central element, polarity, and bond angle around the central element.
Draw the molecular shapes and predict the bond angles (relative to the ideal angles) of
(a) SbF5 and
(b) BrF5.
The bond angles in antimony trifluoride are 87°. Describe the bonding in SbF3, including a picture of the orbital overlap interaction that
creates the Sb-F bonds.
✓orbitals from the inner atom. An outer halogen atom always uses one of
✓valence orbitals, and fluorine has n = vvalence orbitals,
Bond angles near 90° signal interactions of valence
its valence
✓orbitals to form a bond. Antimony has n =
so each of the three bonds in SbF3 can be described as resulting from overlap between a
orbital from F. There are three
vorbital from Sb and a
bonds that point at near-right angles to one another.
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