1. Decide how many valence (outer shell) electrons are posessed by each atom in the molecule.
2. If there is more than one atom type in the molecule, put the most metallic or least electronegative atom in the center. Recall that electronegativity decreases as atom moves further away from fluorine on the periodic chart.
Arrangement of atoms in CO2:
3. Arrange the electrons so that each atom contributes one electron to a single bond between each atom.
4. Count the electrons around each atom: are the octets complete? If so, your Lewis dot structure is complete.
5. If the octets are incomplete, and more electrons remain to be shared, move one electron per bond per atom to make another bond. Note that in some structures there will be open octets (example: the B of BF3), or atoms which have ten electrons (example: the S of SF5).
6. Repeat steps 4 and 5 as needed until all octets are full.
7. Redraw the dots so that electrons on any given atom are in pairs wherever possible.
Procedure for Negatively Charged Ions (CO32-)
Use the same procedure as outlined above, then as a last step add one electron per negative charge to fill octets. Carbonate ion has a 2- charge, so we have two electrons available to fill octets. Using the procedure above, we arrive a this structure:
The two singly-bonded oxygen atoms each have an open octet, so we add one electron to each so as to fill these octets. The added electrons are shown with arrows. Don’t forget to assign formal charges as well! The final Lewis structure for carbonate ion is:
The Essay on Molecular Structure Formal Charge
Molecular Structure Lab Objective: For this experiment we took two different molecule and virtually dissected them finding everything about them including: bond length, bond angles, the charge on each atom, the non bonded distances between atoms and the energy difference between the highest and lowest molecular orbital. Procedure: The procedure is to use Hyper Chem Lite to get the information ...
Procedure for Positively Charged Ions (NH4+)
Use the same procedure as outlined above, then remove one electron per postive charge as needed to avoid expanded octets. When using this procedure for positively charged ions, it may be necessary to have some atoms with expanded octets (nitrogen in this example).
For each unit of positive charge on the ion remove on electron from these exapnded octets. If done correctly, your final structure should have no first or second period elements with expanded octets. Using the basic procedure outlined above, we arrive at a structure in which nitrogen has nine valence electrons. (Electrons supplied by hydrogen are red; electrons supplied by nitrogen are black.) Removal of one of these valence electrons to account for the 1+ charge of ammonium ion solves this octet rule violation.
Reference:
A Brief Tutorial on Drawing Lewis Dot Structures. Posted 81/1/12. Retrieved from http://www.chem.ucla.edu/harding/lewisdots.html Other References
http://www.chem.ufl.edu/~itl/2045/lectures/lewis_woodward/ch8_lewis.html http://www.youtube.com/watch?v=PtMifU1py5I&feature=endscreen&NR=1