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Published byVeronica Freeman Modified over 9 years ago
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Beaker Breaker Draw the Lewis structure of the following polyatomic ions: nitrite ion sulfite ion
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Metallic Bonding 6-4
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Do metals have “few” or “many” valence electrons? How do they achieve “stability” ?
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Metallic Bond Model metals have very few electrons in their highest E level metals frequently have many vacant d-orbitals just below the outer level vacant orbitals of adjacent atoms overlap which allows these loosely held e -s to roam freely
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Metallic Bond Model (con’t) “delocalized electrons” - e -s don’t stay in one locality like… –covalent bonding: stay in the overlapping of the shared orbitals –ionic bonding: e -s are bound to an ion within a crystal lattice mobile electrons form a “sea of electrons”
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Metallic Bonding the chemical bonding that results from the attraction between metal atoms and the surrounding sea of electrons mutual sharing of many e -s where each atom contributes its valence e -s which are then free to move about the mostly vacant outer orbitals of all the metal atoms
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So…why are metals…. good electrical conductors? good thermal conductors? shiny? malleable/ductile?
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Metallic Properties High electrical & thermal conductivity –due to high mobility and delocalization of e -s Luster (shine) –metals absorb E and become “excited” very easily because many of their orbitals are separated by extremely small ∆E…shine occurs when photons are emitted when excited e -s return to ground state
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Metallic Prop. (con’t) Malleability (ability to be hammered/beaten into thin sheets) and ductility (ability to be drawn, pulled, or extruded to produce wire) because metallic bonding is the same in all directions and a shift in layers of atoms is inconsequential
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What determines if a metal is “strong” or not?
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Metallic Bond Strength Expressed in the heat of vaporization value where the bonded atoms in the metallic solid state are converted into indiv. metal atoms in the gaseous state (usually↑heat of vap, the ↑ the bond strength) Determined by –strength of nuclear charge & # delocal. e -s
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What is the difference between… - Bond energy ?? - Lattice energy ?? - Heat of vaporization ?? Hint: What kind of bonding is generally involved when this term is used? Is energy being added or taken away?
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What is the difference between… - Bond energy ?? - Lattice energy ?? - Heat of vaporization ?? Bond energy: E added to break a covalent bond Lattice energy: E released when ionic cmpds are broken down into atoms Heat of vaporization: E added when bonded, metallic, solid atoms are broken into indiv gaseous atoms
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