Electron Configurations

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Presentation transcript:

Electron Configurations 11 DP Chemistry AHL

Orbital Energy Diagrams Subshells within a shell are at the same energy level in hydrogen: 2s = 2p. Subshells are split in a multielectron atom: 2s < 2p. …than in the hydrogen atom. Orbital energies are lower in a multielectron atom …

Electron Configurations An electron configuration describes the distribution of electrons among the various orbitals in the atom. Electron configuration is represented in two ways. The spdf notation uses numbers to designate a principal shell and letters (s, p, d, f) to identify a subshell; a superscript indicates the number of electrons in a designated subshell.

Electron Configurations In an orbital (box) diagram a box represents each orbital within subshells, and arrows represent electrons. The arrows’ directions represent electron spins; opposing spins are paired. N:

Rules for Electron Configurations Electrons ordinarily occupy orbitals of the lowest energy available. No two electrons in the same atom may have all four quantum numbers alike. Pauli exclusion principle: one atomic orbital can accommodate no more than two electrons, and these electrons must have opposing spins. Of a group of orbitals of identical energy, electrons enter empty orbitals whenever possible (Hund’s rule). Electrons in half-filled orbitals have parallel spins (same direction).

Order of Subshell Energies Follow the arrows from the top: 1s, 2s, 2p, 3s, 3p, 4s, 3d, 4p, etc. Subshells that are far from the nucleus may exhibit exceptions to the filling order.

To get He, add one electron to H. To get Li, add one electron to He. The Aufbau Principle The Aufbau principle describes a hypothetical “building- up” of an atom from the one that precedes it in atomic number. (Z = 1) H 1s1 (Z = 2) He 1s2 (Z = 3) Li 1s2 2s1 To get He, add one electron to H. To get Li, add one electron to He. Noble-gas-core abbreviation: we can replace the portion that corresponds to the electron configuration of a noble gas with a bracketed chemical symbol. It’s easier to write … (Z = 3) Li [He]2s1 (Z = 22) Ti [Ar]4s2 3d2

Exercise 1 Write electron configurations for sulfur, using both the spdf notation and an orbital diagram.

Main Group and Transition Elements The main group elements are those in which the orbital being filled in the aufbau process is an s or a p orbital of the outermost shell. In transition elements, the subshell being filled in the aufbau process is in an inner principal shell.

Using the Periodic Table to Write Electron Configurations The electron configuration of Si ends with 3s2 3p2 The electron configuration of Rh ends with 5s2 4d7

Exercise 2 Give the complete ground-state electron configuration of a strontium atom (a) in the spdf notation and (b) in the noble-gas-core abbreviated notation.

Exceptions to the Aufbau Principle Half-filled d subshell plus half-filled s subshell has slightly lower in energy than s2 d4. Filled d subshell plus half-filled s subshell has slightly lower in energy than s2 d9. More exceptions occur farther down the periodic table. They aren’t always predictable, because energy levels get closer together.

Valence Electrons and Core Electrons The valence shell is the outermost occupied principal shell. The valence shell contains the valence electrons. For main group elements, the number of valence shell electrons is the same as the periodic table group number (2A elements: two valence electrons, etc.) The period number is the same as the principal quantum number n of the electrons in the valence shell. Electrons in inner shells are called core electrons. Five valence electrons, for which n = 4 Example: As [Ar] 4s2 3d104p3 28 core electrons

Electron Configurations of Ions To obtain the electron configuration of an anion by the aufbau process, we simply add the additional electrons to the valence shell of the neutral nonmetal atom. The number added usually completes the shell. A nonmetal monatomic ion usually attains the electron configuration of a noble gas atom. O2– : [Ne] Br– : [Kr]

Electron Configurations of Ions (cont’d) A metal atom loses electrons to form a cation. Electrons are removed from the configuration of the atom. The first electrons lost are those of the highest principal quantum number. If there are two subshells with the same highest principal quantum number, electrons are lost from the subshell with the higher l.

Electron Configurations of Ions (cont’d) Atom Ion (or) F 1s2 2s22p5 F– 1s2 2s22p6 [Ne] S [Ne] 3s2 3p4 S2– [Ne] 3s2 3p6 [Ar] Sr [Kr] 5s2 Sr2+ [Kr] 5s2 [Kr] Ti [Ar] 4s2 3d2 Ti4+ [Ar] 4s2 3d2 [Ar] Fe [Ar] 4s2 3d6 Fe2+ [Ar] 4s2 3d6 [Ar] 3d6 What would be the configuration of Fe3+? Of Sn2+? Valence electrons are lost first.

Exercise 3 Write the electron configuration of the Co3+ ion in a noble-gas-core abbreviated spdf notation.