Slaterās rules are a way to estimate the effective nuclear charge experienced by an electron. In this approach, the āshielding constant,ā S, is calculated. The effective nuclear charge is then the difference between S and the atomic number, Z.Ā
The shielding constant, S, is calculated using the following rules:
(1) The electrons of an atom are grouped as follows: (1s) (2s, 2p) (3s, 3p) (3d) (4s, 4p) (4d), and so on.
(2) Electrons in higher groups (to the right) do not shield those in the lower groups.
(3) For ns and np valence electrons
a) Electrons in the same ns, np group contribute 0.35 (for 1s 0.30 works better).
b) Electrons in n ā 1 groups contribute 0.85.
c) Electrons in n ā 2 groups (and lower) contribute 1.00.
(4) For nd and nf electrons, electrons in the same nd or nf group contribute 0.35, and those in groups to the left contribute 1.00.
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As an example, let us calculate Z* for the outermost electron of oxygen:
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Here is the calculation for a d electron in Ni:Ā
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and for an s electron Ni:
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(Here 3s, 3p, and 3d electrons are in the (n ā 1) groups.)
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a) Calculate Z* for F and Ne. Relate the Z* values for O, F, and Ne to their relative atomic radii and ionization energies.
b) Calculate Z* for one of the 3d electrons of Mn, and compare this with Z* for one of the 4s electrons of the element. Do the Z* values give us some insight into the ionization of Mn to give the cation?
