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King Abdulaziz University Chemical and Materials Engineering Department Chapter 2 ATOMIC STRUCTURE AND INTERATOMIC BONDING Session II.

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Presentation on theme: "King Abdulaziz University Chemical and Materials Engineering Department Chapter 2 ATOMIC STRUCTURE AND INTERATOMIC BONDING Session II."— Presentation transcript:

1 King Abdulaziz University Chemical and Materials Engineering Department Chapter 2 ATOMIC STRUCTURE AND INTERATOMIC BONDING Session II

2 King Abdulaziz University Chemical and Materials Engineering Department

3 King Abdulaziz University Chemical and Materials Engineering Department

4 King Abdulaziz University Chemical and Materials Engineering Department Ionic bond – metal + nonmetal donates accepts electrons electrons Dissimilar electronegativities ex: MgOMg 1s 2 2s 2 2p 6 3s 2 O 1s 2 2s 2 2p 4 [Ne] 3s 2 Mg 2+ 1s 2 2s 2 2p 6 O 2- 1s 2 2s 2 2p 6 [Ne] [Ne]

5 King Abdulaziz University Chemical and Materials Engineering Department Occurs between + and - ions. Requires electron transfer. Large difference in electronegativity required. Example: NaCl Ionic Bonding Na (metal) unstable Cl (nonmetal) unstable electron + - Coulombic Attraction Na (cation) stable Cl (anion) stable

6 King Abdulaziz University Chemical and Materials Engineering Department Ionic Bonding Energy – minimum energy most stable –Energy balance of attractive and repulsive terms Attractive energy E A Net energy E N Repulsive energy E R Interatomic separation r r A n r B E N = E A + E R = 

7 King Abdulaziz University Chemical and Materials Engineering Department Predominant bonding in Ceramics Examples: Ionic Bonding Give up electronsAcquire electrons NaCl MgO CaF 2 CsCl

8 King Abdulaziz University Chemical and Materials Engineering Department C: has 4 valence e -, needs 4 more H: has 1 valence e -, needs 1 more Electronegativities are comparable. Covalent Bonding similar electronegativity  share electrons bonds determined by valence – s & p orbitals dominate bonding Example: CH 4 shared electrons from carbon atom shared electrons from hydrogen atoms H H H H C CH 4

9 King Abdulaziz University Chemical and Materials Engineering Department Primary Bonding Metallic Bond -- delocalized as electron cloud Ionic-Covalent Mixed Bonding % ionic character = where X A & X B are Pauling electronegativities %)100( x Ex: MgOX Mg = 1.2 X O = 3.5

10 King Abdulaziz University Chemical and Materials Engineering Department Arises from interaction between dipoles Permanent dipoles-molecule induced Fluctuating dipoles -general case: -ex: liquid HCl -ex: polymer Secondary Bonding asymmetric electron clouds +-+- secondary bonding HHHH H 2 H 2 secondary bonding ex: liquid H 2 H Cl H secondary bonding secondary bonding +-+- secondary bonding

11 King Abdulaziz University Chemical and Materials Engineering Department Type Ionic Covalent Metallic Secondary Bond Energy Large! Variable large-Diamond small-Bismuth Variable large-Tungsten small-Mercury smallest Comments Nondirectional (ceramics) Directional (semiconductors, ceramics polymer chains) Nondirectional (metals) Directional inter-chain (polymer) inter-molecular Summary: Bonding

12 King Abdulaziz University Chemical and Materials Engineering Department Bond length, r Bond energy, E o Melting Temperature, T m T m is larger if E o is larger. Properties From Bonding: T m r o r Energy r larger T m smaller T m EoEo = “bond energy” Energy r o r unstretched length

13 King Abdulaziz University Chemical and Materials Engineering Department Coefficient of thermal expansion,   ~ symmetric at r o  is larger if E o is smaller. Properties From Bonding :  =  (T 2 -T 1 )  L L o coeff. thermal expansion  L length, L o unheated, T 1 heated, T 2 r o r smaller  larger  Energy unstretched length EoEo EoEo

14 King Abdulaziz University Chemical and Materials Engineering Department Ceramics (Ionic & covalent bonding): Large bond energy large T m large E small  Metals (Metallic bonding): Variable bond energy moderate T m moderate E moderate  Summary: Primary Bonds Polymers (Covalent & Secondary): Directional Properties Secondary bonding dominates small T m small E large  secondary bonding

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