1 CHAPTER 7 Chemical Bonding 1. Ionic Bonding 2. Covalent Bonding 3. Lewis Dot Formulas of Atoms 4. Lewis Formulas for Molecules & Polyatomic Ions 5. The.

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Presentation transcript:

1 CHAPTER 7 Chemical Bonding 1. Ionic Bonding 2. Covalent Bonding 3. Lewis Dot Formulas of Atoms 4. Lewis Formulas for Molecules & Polyatomic Ions 5. The Octet Rule 6. Resonance 7. Dipole Moments

2 Introduction o Ionic bonding results from electrostatic attractions among ions, which are formed by the transfer of one or more electrons from one atom to another. o Covalent bonding results from sharing one or more electron pairs between two atoms.

3 Ionic compoundsCovalent compounds usually solids with high melting points, typically > 400 o C gases, liquids, or solids with low melting points, typically < 300 o C generally soluble in polar solventsgenerally insoluble in polar solvents generally insoluble in nonpolar solventsgenerally soluble in nonpolar solvents generally conduct electricity in molten solids and liquids generally do not conduct electricity in molten solids and liquids generally conduct electricity in aqueous solutions are poor conductors of electricity in aqueous solutions are formed between elements with large differences in electronegativity are formed between elements with similar electronegativities

4 Formation of Ionic Compounds 1s 2s 2p Li  F  These atoms form ions with these configurations. Li +  same configuration as [He] F -  same configuration as [Ne]

5 Formation of Ionic Compounds The Li + ion contains two electrons, same as the helium atom. Li + ions are isoelectronic with helium. The F - ion contains ten electrons, same as the neon atom. F - ions are isoelectronic with neon. Isoelectronic species contain the same number of electrons.

6 Formation of Ionic Compounds 4s 4p K [Ar]  Br [Ar]   and the d electrons The atoms form ions with these electronic structures. 4s 4p K + same configuration as [Ar] Br -   same configuration as [Kr]

7 Formation of Ionic Compounds Cations become isoelectronic with the preceding noble gas. Anions become isoelectronic with the following noble gas.

8 Formation of Ionic Compounds

9 Notable exceptions are BeCl 2, BeBr 2, and BeI 2 which are covalent compounds. One example is the reaction of Be and F 2. Be (solid) + F 2(gas)  BeF 2(gas)

10 Formation of Ionic Compounds Be (solid) + F 2(gas)  BeF 2(gas) 2s 2p 2s 2p Be [He]  Be 2+ F [He]   F -  

11 Formation of Ionic Compounds Draw the electronic configurations for Li, O, and their appropriate ions. Li (solid) + O 2(gas)  Li 2 O (solid) 2s 2p 2s 2p Li [He]  Li 1+ O [He]   O 2-  

12 Formation of Ionic Compounds Draw the electronic representation of Ca, N, and their ions. 4s 4p Ca [Ar]  Ca 2+ 2s 2p N [He]   N 3-  

13 Formation of Ionic Compounds Ionic compounds form extended three dimensional arrays of oppositely charged ions. Ionic compounds have high melting points because the coulomb force, which holds ionic compounds together, is strong.

14 Formation of Covalent Bonds This figure shows the potential energy of an H 2 molecule as a function of the distance between the two H atoms.

15 Formation of Covalent Bonds Representation of the formation of an H 2 molecule from H atoms.