Electron configuration: shows which orbitals are occupied in an atom, and how many electrons they contain

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ch8blank Page 1 Chapter 8: Periodic properties of the elements Electron configuration: shows which orbitals are occupied in an atom, and how many electrons they contain Ground state: lowest energy, most stable state for an atom -has all electrons in the lowest energy possible orbitals The energy of an electron in an H atom depends only on the principal quantum number, n, so in its ground state, the electron in an H atom occupies a orbital. Electron configuration: Orbital diagram: figure that organizes electrons into their orbitals. Orbital = box, electron = arrow in box H: Electron spin: direction of an electron's inherent angular momentum -this creates a magnetic field around the electron that either points up or down. Spin quantum number, m s, defines electron spin 1 2 1 2 m s = + : up spin m s = - : down spin

ch8blank Page 2 Multi-electron atoms The first 3 quantum numbers define an orbital All 4 quantum numbers define one electronin an atom n: size of orbital l: shape of orbital m l : orientation of orbital m s : spin of electron in that orbital Pauli exclusion principle: no two electrons in an atom can have the same four quantum numbers This means each orbital can hold no more than electrons He, 2 electrons, ground state electron configuration: Orbital diagram: Be, 4 electrons, configuration: Orbital diagram:

ch8blank Page 3 Energy of electrons in multi-electron atoms In hydrogen, nis the only quantum number necessary to calculate the energy of an orbital In multi-electron atoms, both nand linfluence the energy of an orbital Energies of l: (lowest)s < p < d < f(highest) B (5 electrons) - configuration: Orbital diagram: Also, since energies get closer together as nincreases, a 4sorbital is lower in energy than a 3dorbital

ch8blank Page 4 Electron configurations H He Li Be B C N O F Ne Hund's rule: Electrons fill orbitals with equal energy singly first with parallel spins. Inner electrons: A full noble gas electron configuration inside an atom -represented with noble gas symbol in brackets to make abbreviated electron configuration.

ch8blank Page 5 Periodic table and valence electrons Valence electrons: number of electrons in outermost principal energy level (n) (plus outermost d electrons for transition elements) Core electrons: inner electrons plus filled d or f sublevels

ch8blank Page 6 Periodic table and filling order The reasonthe periodic table has its shape is because of the orbitals occupied in those elements.

ch8blank Page 7 Electron configurations Ca: Sc: Sometimes, electron configurations are rearranged into order of increasing n(to group valence electrons better) Se: Abbreviated configurations: Po: Bh:

ch8blank Page 8 Electron configurations and magnetic properties 4s has lower energy than 3d, but they are still close. Mn: Zn: Cr: Cu: (You should be aware of the conditions behind these anomalies and be able to explain it if it occurs elsewhere, but do not memorize every exception on the periodic table!) Magnetic properties Unpaired electrons in the orbital diagram will make the element paramagnetic(weakly attracted to magnetic field) If all electrons are paired, the element is diamagnetic (not attracted by magnetic field)

ch8blank Page 9 Periodic trends in atomic radius Atomic radius increases going down a column: Atomic radius decreases going across a period (row):

ch8blank Page 10 Ions Main group ions: Transition metal ions: Zn: [Ar] 3d 10 4s 2 Experimentally, the Zn 2+ ion is diamagnetic: Zn 2+ : Transition metals tend to lose the electrons before the electrons! (Writing the configuration in order of increasing n makes ion formation easier!) Ag + :

ch8blank Page 11 Ionic radius Na: [Ne] 3s 1 Na + : [Ne] Cl: [Ne] 3s 2 3p 5 Cl - : [Ne] 3s 2 3p 6

ch8blank Page 12 Ionization energy Ionization energy(ie): energy required to remove 1 electron from an atom or ion Na Na + IE 1 = 496 kj/mol IE 2 = 4560 kj/mol Trends in first ionization energy(ie 1 ): Mg IE 1 = 738 kj/mol (additional protons across a period will increase attraction to the electrons) K IE 2 = 419 kj/mol (an additional shell shields the valence electrons from the nuclear attraction)

ch8blank Page 13 Ionization energy and Electron affinity 2 Li(s) + 2 H 2 O(l) 2 LiOH(aq) + H 2 (g) Li Li + Na Na + K K + Electron affinity(ea): energy change associated with an electron being added to a neutral atom. Li EA = -60 kj/mol O EA = -141 kj/mol F EA = -328 kj/mol

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