Chemical Bonding

1. Chemical Bonding It’s all about togetherness….

2. Bonding .1 Can you… • Define chemical bond? • Explain why most atoms form bonds? • Describe ionic and covalent bonding? • Explain why most chemical bonds are neither purely ionic or purely covalent? • Classify bonds as either ionic, covalent or polar according to the differences in electronegativity?

3. What is a chemical bond? • A mutual attraction between the nuclei and valence electrons of different atoms.

4. Main Types of Bonds • Ionic- electrons are exchanged • Occurs between ions • Very strong bond, with one major weakness: breakable with water • Covalent- electrons are shared • May be polar or non-polar • Do not break with addition of water • Metallic- electrons are in a “sea” around nuclei • Allows for malleability and ductility of metals

5. Table of ElectronegativitiesYou can print one of these from the Homework page

6. How do I know what type of bond is formed between two atoms? • Type of bond is determined by the difference of electronegativities of the atoms.

7. What type of bond? • Use page 194 to reference electronegativities • HF • |4.0-2.1| = 1.9 • Ionic bond

8. What type of bond? • Use page 194 or table to reference electronegativities • CH4 • |2.5-2.1| = 0.4 • polar covalent (slightly polar)

9. What type of bond? • Use page 194 to reference electronegativities • H2O • |2.1-3.5| = 1.4 • polar covalent (highly polar)

10. What type of bond? • Use page 194 to reference electronegativities • H2 • |2.1-2.1| = 0 • covalent (purely covalent)

11. What type of bond? • Use page 161 to reference electronegativities • NaCl • |0.9-3.0| = 2.1 • ionic

12. Can you… • Define chemical bond? • Explain why most atoms form bonds? • Describe ionic and covalent bonding? • Explain why most chemical bonds are neither purely ionic or purely covalent? • Classify bonds as either ionic, covalent or polar according to the differences in electronegativity?

13. ½ sheet CFU 3 points SCl2 • What is the electronegativity difference? • What type of bond? • What is your justification? |2.5 - 3.0| = 0.5 Polar Covalent Electronegativity difference between .3 and 1.7.

14. Homework … • Packet page 8 • Venn diagram • Compounds HandOut

15. ½ sheet quiz Honors • Draw the Lewis structure for HCO2H • Remember to count the valence e-

16. Covalent bonding and molecular compounds

17. Objectives…. Can you… • Define molecule and molecular formula? • Explain the relationships among potential energy, bond length, and bond energy? • Create Lewis diagrams for each element and simple molecules? • State the octet rule?

18. Basic Vocabulary • Molecule: neutral group of atoms held together by covalent bonds • Chemical (molecular) formula: indicates the relative numbers of each type of atom using symbols and subscripts found in a single molecule of the compound

19. Bonding Forces

20. Forming a Covalent Bond • Bonding occurs when the potential energy is at its minimum • Bond length is a function of the attractive and repulsive forces

22. The Octet Rule • Chemical compounds form so that each atom has a complete valence shell of electrons, either by sharing, gaining, or losing electrons (most ns2np6)

23. Electron Dot Diagrams • Show only the valence electrons of an atom or ion 1s22s22p63s23p64s23d104p65s24d105p66s24f145d106p2

24. Bohr Diagrams

25. Electron Dot Diagrams • Show only the valence electrons of an atom or ion

26. Class work • Open your packet to page 9 and work on the LEWIS Dot Worksheet. • You may work with Electron Dot Notation Partner. (10 minutes)

27. Lewis Dot Diagrams • Demonstrate shared and unshared electron pairs in compounds H H:O: : :

28. Rules for Creating Lewis Dot Diagrams • Determine the number of each type of atom in the compound • Write the electron-dot notation for each type of atom • Determine the total number of valence electrons available

29. Rules for Creating Lewis Dot Diagrams • Arrange atoms to form a skeleton structure and connect adjacent atoms with paired electrons • Add unshared pairs of electrons around each non-metal (not H) until octet is reached • Count the number of electrons and compare to step 3 • If incorrect, try creating double and triple bonds.

30. Create the Lewis-Dot for Methane (CH4) Determine the number of each type of atom in the compound carbon-1; hydrogen-4 Write the electron-dot notation for each type of atom C H . . . . .

31. Rules for Creating Lewis Dot Diagrams Determine the total number of valence electrons available • Carbon -4 valence electrons • Hydrogen -1 valence electron (x4)=4 e- • Total=4+4=8

32. Rules for Creating Lewis Dot Diagrams • Arrange atoms to form a skeleton structure and • connect adjacent atoms with paired electrons H . . . . H C H . . . . H

33. Rules for Creating Lewis Dot Diagrams • Add unshared pairs of electrons around each non-metal (not H) until octet is reached H . . . . H C H . . . . H

34. Rules for Creating Lewis Dot Diagrams • Count the number of electrons and compare to step 3 • If incorrect, try creating double and triple bonds. H . . . . H C H . . . . H

35. Rules for Creating Lewis Dot Diagrams • NH3 • Nitrogen- 1; hydrogen- 3 • Valence electrons = 5+3(1)=8 . . H . N . . .

36. Rules for Creating Lewis Dot Diagrams . . . . . . . . H N H H

37. Rules for Creating Lewis Dot Diagrams • CO2

38. Can you… • Define molecule and molecular formula? • Explain the relationships among potential energy, bond length, and bond energy? • Create Lewis diagrams for each element and simple molecules? • State the octet rule?

39. Homework • Packet pg 9 and 10 • Chemical Nomenclature and Formula Writing

40. Formula Quiz 2A • RbAt • (H3O)2Se • Cd3N2 • Fe(NO2)3 • CaI2 • Mercury (II) Astatide • Cesium phosphite • Barium chlorite • Francium permanganate • Beryllium phosphide

41. ½ sheet quiz • Draw Lewis Dot Structures for each… • Al • CH4 • NF3 . . . C Al . . . H . . . . . . . . . . . H H . . . H . . . . . . . . . F N F . . . . . . . . F

42. Ionic bonding and ionic compounds

43. Types of Chemical Formulas Molecular Formula Formula Unit Used for ionic compounds Gives the ratio of anions and cations, but not the exact number • Used for molecules • Gives exact numbers of each type of atom

44. Lattice Energy • Energy released when 1 mole of an ionic crystal compound is formed from gaseous ions.

45. Polyatomic ions • A charged group of covalently bonded atoms • Act as a single unit • Lewis structures are the same as for any covalently bonded compound

46. Can you… • Compare and contrast a chemical formula for a molecular compound with one for an ionic compound? • Discuss the arrangement of ions within crystals? • List the distinctive properties of ionic and molecular compounds? • Write the Lewis structure for a polyatomic ion?

47. Formula Quiz 3B • Cd3N2 • CaI2 • (H3O)2Se • Fe(NO2)3 • RbAt • Barium chlorite • Beryllium phosphide • Cesium phosphite • Francium permanganate • Mercury (II) Astatide

48. Metallic Bonding

49. Can you… • Describe the electron sea model of metallic bonding and use it to explain why metals are good conductors of electricity? • Explain why metal surfaces are shiny? • Explain why metals are malleable and ductile while ionic compounds are not?

50. Metallic Bond • Chemical bond that results from the attraction between metal atoms and the surrounding sea of electrons.