In this case, lone electron pairs are not taken into account. Molecular geometry is the shape of a molecule predicted by considering only bond electron pairs. Therefore, the electron geometry = tetrahedral Number of lone electron pairs = 4 – 4 = 0 Total number of electrons around C = 4 + 4 = 8 Number of electrons donated by hydrogen atoms = 4 x (H) This gives the number of lone electron pairs present in the molecule. Deduct the number of single bonds present around the central atom from the steric number obtained above.This gives the number of electron groups present. Calculate the total number electrons around the central atom.Determine the number of electrons donated by other atoms.Determine the number of valence electrons in the central atom.It should be the most electronegative atom. Predict the central atom of the molecule.The following are the steps used in this determination. The electron geometry can be obtained using VSEPR theory. The electron geometry gives the spatial arrangement of all the bonds and lone pairs of a molecule. These electron pairs can be either bonding electrons or non-bonding electrons. The VSEPR theory states that electron pairs located around a certain atom repel each other. Key Terms: Electron Geometry, Lone Electron Pair, Molecular Geometry, VSEPR Theory What is Electron GeometryĮlectron geometry is the shape of a molecule predicted by considering both bond electron pairs and lone electron pairs. What is the Difference Between Electron Geometry and Molecular Geometry The main difference between electron geometry and molecular geometry is that electron geometry is found by taking both lone electron pairs and bonds in a molecule whereas molecular geometry is found using only the bonds present in the molecule. Molecular geometry can be determined by the number of bonds that a particular molecule has. Electron geometry includes the lone electron pairs present in a molecule. The VSEPR theory (Valence Shell Electron Pair Repulsion theory) can be used to determine the geometries of molecules. The geometry of a molecule can be given as either the electron geometry or the molecular geometry. The geometry of a molecule determines the reactivity, polarity and biological activity of that molecule. Main Difference – Electron Geometry vs Molecular Geometry
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