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19 Nov 2019
n) BrF PROCEDURE For each of the molecules below, do the following: Lewis Structures 1) Draw a Lewis dot structure. 2) Determine whether additional resonance structures are needed to adequately depict this molecule. Draw all major and minor resonance structures, if any. Valence Shelf Electron Pair Repulsion (VSEPR) Theory 3) Give the number of "electron domains" around the central bonding atom. 4) Give the electron domain geometry (sometimes called the orbital geometry.) 5) Give the molecular geometry. 6) Give the expected bond angles (assuming no distortion.) 7) Determine whether one or more of the bond angles is distorted. 8) Determine whether the molecule is polar. Valence Bond Theory 9) Give the hybridization on the central bonding atom that is required in order to match the electron domain geometry (orbital geometry.) 10) Give the number of sigma bonds in this structure. 11) Give the number of pi bonds in this structure. Note: in each of these molecules, the first atom in the formula is the central atom and all of the other atoms are bonded to it.
n) BrF PROCEDURE For each of the molecules below, do the following: Lewis Structures 1) Draw a Lewis dot structure. 2) Determine whether additional resonance structures are needed to adequately depict this molecule. Draw all major and minor resonance structures, if any. Valence Shelf Electron Pair Repulsion (VSEPR) Theory 3) Give the number of "electron domains" around the central bonding atom. 4) Give the electron domain geometry (sometimes called the orbital geometry.) 5) Give the molecular geometry. 6) Give the expected bond angles (assuming no distortion.) 7) Determine whether one or more of the bond angles is distorted. 8) Determine whether the molecule is polar. Valence Bond Theory 9) Give the hybridization on the central bonding atom that is required in order to match the electron domain geometry (orbital geometry.) 10) Give the number of sigma bonds in this structure. 11) Give the number of pi bonds in this structure. Note: in each of these molecules, the first atom in the formula is the central atom and all of the other atoms are bonded to it.
Irving HeathcoteLv2
19 Nov 2019