Previously in Chem 104: unit cell, Z, at.wt related to density types of closest packing, ccp= fcc, hcp Ionic Unit Cells for CsCl and NaCl TODAY QUIZ answer.

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Previously in Chem 104: unit cell, Z, at.wt related to density types of closest packing, ccp= fcc, hcp Ionic Unit Cells for CsCl and NaCl TODAY QUIZ answer key out - send self-check by Tuesday 5PM Is Aluminum a stable solid? Born Haber Cycles “why doesn’t that solid exist” phase diagrams

Born Haber Cycles Relate Lattice Enthalpy and Heat of Formation  H f Must be (-) for a stable solid ionic solid Elements in Standard States: M(s), X 2 (g) Energy

Born Haber Cycles  H f must be (-) for a stable solid ionic solid, MX M(s), X 2 (g) Energy M + (g), X - (g) M + (g) M(g) X - (g) X (g)  H sub  H I.E.  H BD  H lattice  H EA

Born Haber Cycles ionic solid, MX M(s), X 2 (g) Energy M + (g), X - (g) M + (g) M(g) X - (g) X (g)  H sub  H I.E.  H BD  H lattice  H EA  H f =  H sub +  H I.E +  H BD +  H EA +  H lattice HfHf

Born Haber Cycles ionic solid, NaCl Na(s), Cl 2 (g) Energy Na + (g), Cl - (g) Na + (g) Na(g) Cl - (g) Cl (g)  H sub  H I.E.  H BD  H lattice  H EA  H f =  H sub +  H I.E +  H BD +  H EA +  H lattice HfHf For NaCl: -381 = –

 H f =  H sub + DH I.E +  H BD +  H EA +  H lattice For NaCl: -381 = – For NaO: = ½ (493) Positive  Hf: NaO does not (can not) exist! For Al 2 O 3 : = 2( ) + 3/2 (493) + 3 (639) - 15,600

What factors affect the parameters in the Born-Haber calculations?  H EA :  H I.E :  H BD :  H sub :  H lattice : H lattice ~ U lattice = C N A { (Z+)(Z-) d

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