In the latter both count the same in determining the steric number SN (i.e. Note that the single bonds in the former and the double bonds We'll go on to look at SN = 5 and SN = 6 cases before turning to the use of molecular shapes to predict molecular polarity.Įxamples of linear geometry (SN = 2)are provided by beryllium dichloride (BeCl 2) andĬarbon dioxide (CO 2). Note that any atom obeying the octet rule will not have SN > 4.Īnd we'll begin by analyzing the possible molecular shapes for steric number equal to 2, 3 and 4. The value we assign to SN is the same as the number of electron domains (electron groups).
(Tro's 'electron groups') instead of electron pair in determining a value for SN. Or triple-bonded to the central atom, we sometimes use the term electron domain Since we end up counting a bonded atom only once, even if it is double.
Tro's text refers to this count, what we are calling steric number, The number of lone pairs present on the central atom. This amounts simply to a count of the number of bonded atoms plus Number (abbreviated SN) for the central atom of a molecular structure.
To do this, we apply the valence shell electron pair repulsion or VSEPR model. Shape of the molecule, or its three-dimensional structure. Molecular structure: The five basic shapesįor simple molecules, we can use them to predict the Single-central atom structures: The five basic shapes. GENERAL CHEMISTRY TOPICS Molecular structure