Chapter 6A: Chemical Bonding General Chemistry Mr. Mata

1. Chapter 6A: Chemical Bonding General Chemistry Mr. Mata Cartoon courtesy of NearingZero.net

2. Standard 2a • Atoms combine to form molecules by sharing electrons to form covalent or metallic bonds.

3. Essential Question • How do electrons behave during bonding?

4. 6-1 Chemical Bonds • Forces that hold atoms together. • make groups of atoms function as a unit. • Ionic bonds – transfer of electrons. Metal + Nonmetal Ex: NaCl, Li2O • Covalent bonds – sharing of electrons. Nonmetal + nonmetal Ex: H2O, CO2 • Metallic bonds- electrons are free to move throughout material. Ex: Metals

5. Covalent Bonds • Nonpolar-Covalent bonds (H2) • Electrons are equally shared. • Electronegativity (EN) values are used. • H: EN value = 2.1; H-H; 2.1 – 2.1 = 0 • EN difference (0 to 0.3). • Polar-Covalent bonds (HCl) • Electrons are unequally shared. • H: EN value = 2.1; Cl: EN value = 3.0 • 3.0 – 2.1 = 0.9 • EN difference (0.3 to 1.7)

6. Using Electronegativity differences • NaCl /0.9 – 3.0/= 2.1 • Cl = 3.0 (look on Periodic Table) • Na = 0.9 1.7 or up = Ionic Bond

7. 6-2 Covalent Bonding • Molecule- smallest unit of matter that can exist & retain all properties of substance. Examples: H2O & O2, C12H22O11 • Diatomic molecule- molecule containing 2 identical atoms. (H2 N2 O2 F2 Cl2 Br2 I2)

8. Comparing Monatomic, Diatomic, and Polyatomic Molecules

9. Characteristics of the Covalent Bond • When two atoms form a covalent bond, their shared electrons form overlapping orbitals. • Bonding of two H atoms allows each atom to have stable e - configuration of helium, 1s2.

10. Chemical Formula- represents relative # of atoms in a chemical compound by using symbols & subscripts. • Example: H2O H=2 atoms O=1 atom • Molecular compound (Covalent) - simplest formula unit are molecules. • Have low melting & boiling pts. • Molecular formula- shows types & #’s of atoms combined in a single molecule.

11. Bond Length- average distance between 2 bonded atoms. • Bond Energy-energy required to break a bond. • Gives info about strength of bond. • Energy is stored in chemical bonds.

12. The Octet Rule • Compounds form so that each atom has an octet (8) e-’s outer shell. • By gaining, losing, or sharing e-’s. 8 isGreat! H He

13. Electron-Dot Diagrams • Keeps track of valence (outermost) e-’s. • Valence e-’s of an atom shown by dots placed around the element’s symbol. • Inner-shell e-’s are not shown.

14. Lewis Dot CH4 H2O • Shows how valence e-’s are arranged among atoms in a molecule. • Stability of compound relates to noble gas e- configuration.

15. Structural Formula • Shows shared pair of e-’s by a dashed line.

16. Single bond- 1 pair of e-’s • Double bond- 2 pair of e-’s • Triple bond- 3 pair of e-’s • Try a couple: • O2 O = O • N2 N N

17. Molecular/Covalent Compounds • Write Lewis Structures for Molecular Compounds. Electrons are shared: H2 . . H + H H:H : : : : . : :Cl:Cl: Cl2 Cl. + Cl : : : : :

18. Lewis Structures • Often bonding pairs of electrons can be represented with a line: HCl H2O : : . : . H Cl: H:Cl: + = H-Cl: : : : : : : : . + H : . H:O: = O: H-O: . : H H . . . H

19. Lewis Structures H NH3 . . 3H . H-N: + N: . H H . 4H . CH4 + . . C H-C-H . H