A simple procedure for writing Lewis structures is given in a previous article entitled “Lewis Structures and the Octet Rule”. Relevant worked examples were given in the following articles: Examples #1, #2, #3 , #4, #5, #6, #7, #8, #9, #10, #11, #12, #13, #14, #15, #16, #17, #18, #19, #20, #21, #22, #23, #24, #25, #26, #27, #28, #29, #30, #31 and #32.
Let us consider the case of acrylonitrile, C3H3N:
Step 1: Connect the atoms with single bonds.
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| Fig. 1: Connect the atoms of C3H3N with single bonds |
Step 2: Calculate the # of electrons in π bonds (multiple bonds) using formula (1):
Where n in this case is 4 since C3H3N consists of 7 atoms but 3 of them are H atoms.
Where V = 3*4 + 3*1 + 5 = 20
Therefore, P = 6n + 2 – V = 6 *4 + 2 – 20 = 6 So, there are either i) 3 double bonds or ii) 1 triple and 1 double bond.
The structure in Figure 1 cannot have 3 adjacent double bonds because the middle carbon would have 5 bonds.
The only possibility is 1 triple and 1 double bond and the only possible arrangement is shown in Steps 3 and 4:
Step 3 & 4: The Lewis structure of acrylonitrile C3H3N is as follows:
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| Fig 2: Lewis dot structures of acrylonitrile. Structure #1 is the major contributor to the hybrid since there is an octet of electrons around each atom and there is no charge separation. |
Structure #1 is the major contributor to the hybrid - the most stable Lewis resonance structure - since there is an octet of electrons around each atom and there is no charge separation.
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