1. CHEMICAL BONDING

2. REMEMBER…. THERE ARE TWO KINDS OF PURE SUBSTANCES Elements Compounds

3. Elements  Substance that cannot be separated or broken down into simpler substances by chemical means.  Ex’s- any box on the periodic table  Made of only 1 type of atom  The smallest unit of an element that maintains the properties of that element  HUH?

4. The smallest unit of an element that maintains the properties of that element???  The element sodium has certain properties  11 protons, 11 electrons, etc and that determines properties like boiiling point, etc.

5. Compounds cont…  Substance made of atoms of 2 or more different elements that are CHEMICALLY combined.  Means they are bonded by the electrons!  Elements are combined in a definite way and this changes their properties Na - lethal if ingested Cl- lethal if ingested NaCl- table salt

6. Molecules  Two or more atoms bonded together…  They can be two of the same element or two different elements (compounds)  All compounds are molecules, but not all molecules are compounds.  Ex- O2, NaCl, etc.

7. Compounds  Molecules made by atoms of two or more elements bonded together -always in a definite ratio Elements  Molecules made of just one element Na (sodium) NaCl (sodium chloride/salt)

8. Let’s start the new notes…

9. Compound/Molecule  Chemical combination of 2 or more atoms/elements.  Properties of the compound are unlike those of the elements that make it. (table salt ex)  Represented by a formula that gives the ratio of atoms of the elements.  Ex- The formula NaCl tells you that salt is a compound made of one Na and one Cl. The ratio is then 1:1

10. Chemical Bond  Force which holds atoms together.  3 Types: Metallic Ionic Covalent Polar Nonpolar

11. Metallic Bonds  Formed between 2 or more metal atoms (elements).  Valence electrons overlap.  The electrons are free to move about all the atoms; therefore, they are good conductors of electricity.  Ex) Mg, Cu, Fe, etc. form these types of bonds

12. Ionic Bonds (formed in ionic compounds)  IONS are the basic unit (atom with a charge).  CATION = ion that has a + charge (lost e - ‘s)  ANION = ion that has a – charge (gained e - ‘s)

13. How are these ions made?  Can you mess with protons?  Would messing with neutrons do anything to the charge?  What must you mess with???  What charge does an electron have?  So what would happen to the atom if they LOSE one? Would they get more positive or more negative overall???

15. How do ions stick together?  Force of attraction between oppositely charged ions.  (anion & cation)  Ionic bonds are very strong bonds.  Formed between metal & nonmetal atoms (elements).  Electronegativity difference between the atoms is 1.7 or greater. (see table on last page of notes)  Ex) Na & Cl

16. Ionic Compounds: pack into a pattern (crystal; lattice) have very high melting points.

17. Ionic Compound Cont… Dissolve in water (H 2 O), and ions are then free to move (dissociate). Conduct electric current.

18. Let’s Draw Some:  Do you remember how to draw a bohr model?  Draw one for Sodium and one for Chlorine  What do you think will happen?

19. Bond Diagrams  Ionic Bond- -lose & gain electrons  Ex. NaCl

20. Lets make some Lewis Dot diagrams!!!  Draw a Lewis Dot for Na & Cl.  Draw an arrow to show what the electron will do  Finally draw the ions in the bond.

21. Let’s put it all together…

22. Lewis Dot Diagrams 

23. Covalent Bonds (formed in molecular/covalent compounds)  Atoms are the basic unit. (atoms bond to form them)  Covalent bonds are firm, but molecules not strongly held together.  Force between atoms that share electrons.

24. Let’s draw some!  Remember covalent bonds SHARE electrons, so there is no drawing arrows.  Ex- F 2

25. Lewis Dot Diagrams…

26. Steps to help you…  Draw the lewis of each kind of atom in the compound.  Highlight/circle which electrons will be shared  When you draw your molecule-  Draw the center atom in the molecule with all 8 valence electrons (use two “types” like x’s and o’s to show where they came from)  Draw in your other atoms and their valence electrons  Circle each atoms’ “8 electrons”- they will overlap each other where they share

27. Ex- Cl 2

28. Kinds of Covalent Bonds  Can share different number of electrons: Single- share ONE pair of electrons Double- share TWO pair of electrons Triple- share THREE pairs of electrons  Can be polar covalent or nonpolar covalent bonds.

29. Nonpolar Covalent bonds: Electrons are shared equally in the bond. Does not have (+) and (-) end to the bond. Formed between 2 or more of the same nonmetal. Electronegativity difference between the atoms (elements) is between 0 and 0.3. (see table on last page of notes) Ex) Cl & Cl

30. Polar Covalent bonds: Electrons are NOT shared equally in the bond. Has a (+) and (-) end to the bond. Formed between 2 different nonmetals. Electronegativity difference between the atoms (elements) is 0.4- 1.6 (see table on last page of notes) Ex) H & O C & O

31. Polar vs Nonpolar Covalent Bonding

32. How do you know which type of bond will form? Use two rules:  Calculation using electronegativity values on a periodic table: (Note: if they are both/all metals, automatically, it is a metallic bond!)  Subtract the values of the 2 elements (larger minus smaller)  If difference is: 0-0.3 = nonpolar covalent bond 0.4-1.6= polar covalent bond 1.7 & up= ionic bond

33. Electronegativity Differences summary… If difference is: 0.1-1.6 Electronegativities are not different enough to steal the electron away, but there will be a “bully” who hugs the electrons closer If differenc is 1.7 & up Electronegativities are so great that one atom will steal the electron away 0-0.3 difference Electronegativities are the same, so the atoms will share nicely

34. A second way… “rule of thumb”  2) Periodic table/metal, nonmetal rule (Rule of thumb):  Metal and Metal = metallic bond  Metal and nonmetal = ionic bond  Nonmetal and nonmetal = covalent All same nonmetal = nonpolar covalent bond Different nonmetals = polar covalent bond

35. Rule of thumb summary… Two different nonmetals A metal with a nonmetal Two Nonmetals Both the same nonmetal

36. Covalent/ Molecular Compounds: Not packed into a pattern. Have low melting points. May not dissolve in water (H 2 O), but some can. Do not conduct electricity; do not dissociate.