A simple and general procedure for writing Lewis structures is given in a previous article entitled “Lewis Structures and the Octet Rule”.
Several worked examples relevant to this procedure were given in previous posts please see the Sitemap - Table of Contents (Lewis Electron Dot Structures).
Several worked examples relevant to this procedure were given in previous posts please see the Sitemap - Table of Contents (Lewis Electron Dot Structures).
Let us consider the case of the cyanamide ion NCN-2 and draw the Lewis electron dot structures:
Step 1: Connect the atoms with single bonds.
Step 2: Calculate the # of electrons in π bonds (multiple bonds) using formula (1):
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| Fig. 1: Connecting the atoms of the NCN-2 with single bonds according to Step 1 of the method |
Step 2: Calculate the # of electrons in π bonds (multiple bonds) using formula (1):
Where n in this case is 3 since NCN-2 consists of 3 atoms.
Where V = 5 + 4 + 5 – (-2) = 16, V is the number of the valence electrons of the ion.
Therefore, P = 6n + 2 – V = 6 *3 + 2 – 16 = 4 Therefore, there are either 2 double bonds or 1 triple bond.
Step 3 & 4: The Lewis dot structures of NCN-2 are as follows:
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| Fig. 2: Lewis resonance structures of the cyanamide NCN-2 ion |
The ion represented by the electron dot structure #1 is the most stable comparing to the #2 and #3 because of less charge separation. The cyanamide ion is isoelectronic and hence isostructural with the CO2 molecule.
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