The iodine cyanide molecule, ##ICN##, has a total of 16 , 7 from iodine, 4 from carbon, and 5 from nitrogen

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The iodine cyanide molecule, ##ICN##, has a total of 16 , 7 from iodine, 4 from carbon, and 5 from nitrogen.

If you take into account the fact that carbon is the central atom, the only that would give all the three atoms complete without any would look like this

The molecule has a total of 8 non- electrons, distributed as 3 lone pairs on iodine and 1 lone pair on nitrogen, and 8 bonding electrons, distributed in 1 and 1 triple bond.

All the 16 are accounted for and all the have have complete .

Now for the phosphate ion, ##PO_4^(3-)##. This has a total of 32 , 5 from phosphorus, 6 from each of the four oxygen atoms, and 3 from the overall negative charge.

Start by placing phosphorus as the central atom, and bonding it to the four oxygen atoms via single bonds. This will account for 8 of the 32 , the remaining 24 valence electrons being distributed as lone pairs on the oxygen atoms.

Notice that all the atoms have complete octets, but that you have significant charge separation, which reduces the stability of the structure.

Since phosphorus is a period 3 element, it can actually have an expanded octet, i.e. accomodate more than 8 electrons in its outermost shell. This means that you form a double bond to one of the oxygen atoms in order to reduce the separation of charge.

As a result, you'll get a series of that will look like this

The actual of the phosphate ion is a hybrid of all these structures.