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Chemical Bonding III. Ionic Compounds.

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Presentation on theme: "Chemical Bonding III. Ionic Compounds."— Presentation transcript:

1 Chemical Bonding III. Ionic Compounds

2 1. Lewis Structures Covalent – show sharing of e-
Ionic – show transfer of e-

3 1.Lewis Structures Ionic – show transfer of e-

4 Formation of Cations Metals lose electrons to attain a noble gas configuration. They make positive ions (cations)

5 Electron Dots For Cations
Metals will have few valence electrons (usually 3 or less); calcium has only 2 valence electrons Ca

6 Electron Dots For Cations
Metals will have few valence electrons Metals will lose the valence electrons Ca

7 Electron Dots For Cations
Metals will have few valence electrons Metals will lose the valence electrons Forming positive ions Ca2+ This is named the “calcium ion”. NO DOTS are now shown for the cation.

8 Anions ( - ) Nonmetals gain electrons to attain noble gas configuration. They make negative ions (anions)

9 Electron Dots For Anions
Nonmetals will have many valence electrons (usually 5 or more) They will gain electrons to fill outer shell. 3- P

10 Stable Electron Configurations
All atoms react to try and achieve a noble gas configuration. 8 valence electrons = already stable! This is the octet rule (8 in the outer level is particularly stable). Ar

11 Ionic Bonding Anions and cations are held together by opposite charges (+ and -) Ionic compounds are called salts. The bond is formed through the transfer of electrons (lose and gain) Electrons are transferred to achieve noble gas configuration.

12 Ionic Compounds Also called SALTS Made from: a CATION with an ANION (or literally from a metal combining with a nonmetal)

13 Ionic Bonding Na Cl The metal (sodium) tends to lose its one electron from the outer level. The nonmetal (chlorine) needs to gain one more to fill its outer level, and will accept the one electron that sodium is going to lose.

14 Properties of Ionic Compounds
Crystalline solids - a regular repeating arrangement of ions in the solid Ions are strongly bonded together. Structure is rigid. 3. High melting points Coordination number- number of ions of opposite charge surrounding it

15 NaCl CsCl TiO2 - Page 198 Coordination Numbers:
Both the sodium and chlorine have 6 NaCl Both the cesium and chlorine have 8 CsCl Each titanium has 6, and each oxygen has 3 TiO2

16 Do they Conduct? Conducting electricity means allowing charges to move. In a solid, the ions are locked in place. When melted, the ions can move around. Dissolved in water, they also conduct (free to move in aqueous solutions)

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