1. CHEMICAL BONDS
Chapter 20

2. BONDING - journal
Draw the BOHR ATOM & Lewis Dots for Hydrogen, Carbon, Chlorine, and Neon
How many valence electrons does each have?
How many more electrons does each need to be full in its valence shell?
Are atoms stable when their valence shells are partially empty?

3. Chemical PROPERTIES depend on the number of valence electrons.
BONDING
Chemical PROPERTIES depend on the number of valence electrons.

4. BONDING
Therefore, chemical BONDING and REACTIVITY (how an element reacts) depend on an element’s electron configuration.

5. BONDING
Which families on the Periodic Table are UNSTABLE because of their electron configurations?
CIRCLE THEM.

6. BONDING
STABLE ELECTRON CONFIGURATION:
Which group does this describe?

7. What do elements with UNSTABLE ELECTRON CONFIGURATIONS do?
BONDING
What do elements with UNSTABLE ELECTRON CONFIGURATIONS do?

8. They CHEMICALLY BOND and form compounds
BONDING
They CHEMICALLY BOND and form compounds
IONIC BONDING

9. BONDING
IONIC BONDING – the forming of a stable electron configuration through electron transfer
Both Sodium and Chlorine are now STABLE (FULL) in their highest energy levels

10. What types of elements are Sodium and Chlorine?
BONDING
IONIC BONDING – the forming of a stable electron configuration through electron transfer
What types of elements are Sodium and Chlorine?

11. BONDING
IONIC BONDING – the forming of a stable electron configuration through electron transfer between a metal and a nonmetal.

12. When an atom gains or loses electrons, what does it get?
BONDING
IONIC BONDING – the forming of a stable electron configuration through electron transfer between a metal and a nonmetal.
When an atom gains or loses electrons, what does it get?
A CHARGE.

13. BONDING
IONIC BONDING – the forming of a stable electron configuration through electron transfer between a metal and a nonmetal
ION: An atom with a positive or negative CHARGE from electron transfer.

14. BONDING
IONIC BONDING – the forming of a stable electron configuration through electron transfer between a metal and a nonmetal
In the bond, one becomes positive (loses electrons) and one becomes negative (gains electrons).

15. WHAT DO OPPOSITE CHARGES DO?
BONDING
IONIC BONDING – the forming of a stable electron configuration through electron transfer between a metal and a nonmetal
WHAT DO OPPOSITE CHARGES DO?

16. This is HOW the IONIC BOND forms.
BONDING
IONIC BONDING – the forming of a stable electron configuration through electron transfer between a metal and a nonmetal
ATTRACT.
This is HOW the IONIC BOND forms.

17. BONDING
HOW can you predict which elements will make positive ions and which will make negative ions?

18. IONIC BONDING Ionization Energy: the ability to PULL ON ELECTRONS.
Which side GIVES UP electrons more easily?
Which side has the MOST PULL?

19. IONIC BONDING TELLS YOU THE OXIDATION NUMBER
Ionization Energy: the ability to PULL ON ELECTRONS.
TELLS YOU THE OXIDATION NUMBER
Take out your Periodic Table.
Predict the OXIDATION NUMBERS for A Groups

20. IONIC BONDING PROPERTIES OF IONIC COMPOUNDS
Form between a metal and a nonmetal
Brittle/crystalline
High melting/boiling points
Dissolve (ions come apart) in water & conduct electricity 20

21. IONIC BONDING NAMING IONIC COMPOUNDS This is Binary Nomenclature
The metal (positive ion) goes first in the formula
The nonmetal (negative ion) goes last in the formula
NaCl – Sodium Chloride
HF – Hydrogen Fluoride
MgI2 – Magnesium Iodide
KBr - ???
Potassium Bromide
This is Binary Nomenclature
Ionic Bonding Challenge

22. IONIC BONDING

23. BONDING – Journal 3
Show ALL THE STEPS of an IONIC BOND between a Family 1A element and a Family 7A element, between a Family 2A and Family 6A, and a Family 3A and a Family 5A.

24. CHEMICAL BONDS – Covalent
Chapter 20

25. BONDING – Journal
Show all of the steps needed to bond Sodium and Bromine.
Show all of the steps needed to bond Magnesium and Fluorine.
What is the full definition of an ionic bond?
Why do elements bond?
Answer the question for Figure 10 on page 166 of your book.

26. Chemical PROPERTIES depend on the number of valence electrons.
BONDING
Chemical PROPERTIES depend on the number of valence electrons.

27. BONDING
Therefore, chemical bonding and reactivity depend on an element’s electron configuration.

28. BONDING
STABLE ELECTRON CONFIGURATION:
Which group does this describe?

29. What do elements with UNSTABLE ELECTRON CONFIGURATIONS do?
BONDING
What do elements with UNSTABLE ELECTRON CONFIGURATIONS do?

30. BONDING
They BOND
COVALENT BONDING

31. Both Hydrogens are now STABLE in their highest energy levels
BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING
Both Hydrogens are now STABLE in their highest energy levels

32. What type of element is Hydrogen?
BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING
What type of element is Hydrogen?

33. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
What element is this?

34. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How many electrons are
shared in each picture?

35. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
Two = A PAIR
This is called a SINGLE
COVALENT BOND

36. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
Each atom shares AN EQUAL number
of electrons to fill its outer shell

37. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
This is how you DRAW a
SINGLE COVALENT BOND

38. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
A single line means each atom shared
one electron each to get full.

39. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How would you show the bond between Carbon and Hydrogen?
BREAK FOR THE BONDING BASICS SHEET

40. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How would you show the bond between Carbon and Hydrogen?

41. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How would you DRAW the bond between Carbon and Hydrogen?

42. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
What kind of bond would 2 oxygen atoms form?
COVALENT

43. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How many electrons does each atom need?
TWO

44. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How many TOTAL electrons are shared?
FOUR

45. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How would you draw this?
This is a DOUBLE COVALENT BOND. 2 pairs shared

46. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
What kind of bond would 2 nitrogen atoms form?
COVALENT

47. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How many electrons does each atom need?
Three

48. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How many total electrons are shared?
Six (three pairs)

49. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How would you draw this?
This is a TRIPLE COVALENT BOND 3 pairs shared

50. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
Sometimes electrons are NOT SHARED EQUALLY

51. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
This is called a POLAR COVALENT MOLECULE

52. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
The molecule has a negative side and positive side

53. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
The molecule has a negative side and positive side

54. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
Whenever electrons are SHARED, the thing that is formed is called a MOLECULE.

55. BONDING
COVALENT BONDING – the forming of a stable electron configuration through electron SHARING between NONMETALS
How do you write the Chemical Formula for a MOLECULE?

56. How do you write the Chemical Formula for a MOLECULE?
BONDING
How do you write the Chemical Formula for a MOLECULE? H2 O2
CH4 F2 N2

57. HOW DO YOU NAME A MOLECULE?
BONDING
HOW DO YOU NAME A MOLECULE?
H2O
Dihydrogen oxide
CO2
Carbon dioxide
CH4
Carbon tetrahydride
HCl
Hydrogen Chloride
SO3
Sulfur trioxide

58. Building Covalent Molecules
Number of shared electrons
Name of bond
Shown in a structural formula by what symbol?
Shown in a model by how many of what item? 2
SINGLE
-----
ONE STICK 4
DOUBLE
===
TWO SPRINGS 6
TRIPLE
THREE SPRINGS

59. Building Covalent Molecules
Element
Color
Lewis Dot
Number of covalent bonds needed to get a full outer shell = number of holes C
BLACK 4 H
YELLOW 1 O
RED 2 S
SILVER 2 N
BLUE 3

60. Building Covalent Molecules
Suppose you need to make three covalent bonds to get a full outer shell. What are three ways of covalent bonding involving combinations of single, double, and triple bonds that you could use?

61. Building Covalent Molecules
When you build a good model what happens to the holes in the atomic models?
THEY ARE FULL

62. Liquid, clear, used for cleaning & manufacturing
Molecule’s name
PHYSICAL PROPERTIES
Chemical Formula
Structural formula
water
Liquid, clear, high boiling point
H2O
oxygen
Gas, clear, low boiling point,
18% of atmosphere O2
nitrogen
Gas, clear, low boiling point, 78% of atmosphere N2
methane
Flammable, clear, gas
CH4
propane
Flammable, clear, gas
C3H8
butane
Flammable, clear, gas
C4H10
rotten egg gas
Stinks, toxic, clear
H2S
ammonia
Liquid, clear, used for cleaning & manufacturing
NH3
carbon dioxide
Clear, gas, low boiling point
CO2