2. IPC 7.D
Relate the chemical behavior of an element, including bonding, to its placement on the periodic table.

3. Elements are made of atoms
Atoms contain protons, neutrons and electrons

4. Example: Lithium atom Lithium has: 3 protons (red) 4 neutrons (blue)
3 electrons (black)
Valence or Outermost Electrons are responsible for an atoms chemical behavior and bonding

5. How do you know how many valence or outermost electrons an atom has?
The periodic table tells us!
The Roman Numerals on the “A” Groups indicate the number of outer electrons

6. Elements are arranged:
Vertically into Groups or Families
Horizontally Into Periods

7. If you looked at one atom of every element in a group you would see… They all have the same number of outer or valence electrons

8. The group IIA atoms all have 2 electrons in their outer shells
Be (Beryllium)
Atom
Mg (Magnesium) Atom
Elements in the same group have similar properties!

9. We can tell some properties of elements from their placement on the Periodic Table
2 outer electrons
The Noble Gasses are Un-reactive or Inert. They don’t form compounds easily with other elements. Their outer shells are full and have the maximum amount of electrons they can hold. }
8 outer electrons

10. The Alkali Metals are very reactive and tend to lose one electron in order to have a full outer shell. When they lose an electron they have a +1 charge.

11. The Alkaline Earth Metals are very reactive and tend to lose two electrons in order to have a full outer shell. When they lose electrons they have a +2 charge.

12. These elements are known as the Transition Metals
Most are good conductors of electricity.

13. The Halogens are poisonous and are fairly reactive
The Halogens are poisonous and are fairly reactive. Fluorine is the most reactive element. It can combine with many other elements. Halogens tend to gain one electron and then have a -1charge.

14. Solid Nonmetals are brittle and don’t conduct electricity
Solid Nonmetals are brittle and don’t conduct electricity. Some nonmetals are gasses or liquids. NONMETALS GAIN OR ACCEPT ELECTRONS AND WILL HAVE NEGATIVE CHARGES WHEN THEY DO.

15. Metalloids lie on either side of the stair-steps
Metalloids lie on either side of the stair-steps. They share properties with metals and nonmetals. They are good semi-conductors

16. Nonmetals on the right gain electrons
How can I remember the charge of an atom when it gains or loses electrons? +1 +2 -2 -1
The left side of the table is for losers! Metals tend to lose electrons
Nonmetals on the right gain electrons

17. Bonding
Atoms with charges (called Ions) can be attracted to each other to form neutral compounds (all charges must add to zero)
Ex: Na+1 and Cl-1 form NaCl
Mg+2 will combine with two Cl-1 to form MgCl2
Ca+2 and O-2 will form MgO
This type of bonding is called Ionic Bonding

18. NaCl: The electron Na+1 loses can be the same one Cl-1 gains.
The reaction of chlorine with sodium to form table salt. (Note: only valence electrons are shown in this simulation)

19. Groups of atoms with charges
Sometimes groups of atoms will act as a unit and carry a charge.
NH4+1
OH-1
CO3-2
SO4-2
PO4-3
These groups can also combine to form neutral compounds.
Na+1 and OH-1 form NaOH
NH4+1 and CO3-2 form (NH4)2CO3
Al+3 and SO4-2 form Al2(SO4)3

20. How do I know how to do that?
There is a quick way to determine the formula of an ionic compound called the Crisscross Rule.
Example: What happens if you react aluminum and oxygen?
Al3+
O2-
Charges are not considered as part of subscripts
Al2O3
Write the positive ion first, then the negative ion.
How do you know the formula?

21. One more example NH4+1 S2- (NH4)2S
Compounds involving polyatomic ions work exactly the same way.
Example: A compound made from the ammonium cation and the sulfide anion:
NH4+1
S2-
(NH4)2S
Remember that a 1 is understood, and not written.

22. Sharing Electrons
Some times atoms share electrons to complete their outer or valence energy level.
This results in covalent bonding.
Oxygen has 6 valence electrons and Hydrogen has 1. Each Hydrogen can share its electron with oxygen giving each atom a full outer shell.

23. Each Chlorine atom has 7 valence electrons
Each Chlorine atom has 7 valence electrons. They can each share their unpaired electron so they have a full outer shell of 8.
Cl2

24. This atom has 4 protons (+) so it is number 4 on the Periodic Table, Be

25. Elements with similar reactivity will be in the same group (column) on the Periodic Table, and have the same number of valence or outer electrons

26. Only Nonmetals Gain or Accept Electrons!
Fluorine is the only Nonmetal here!

27. Ca2+
Cl-
CaCl2

28. The Noble Gases have a full outer shell of electrons and don’t react or form compounds easily.