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1/7/16 Objective: SWBAT correctly name and predict the charge on any ion from the representative elements. Due Today: 1.5 inch 3 ring binder Agenda: Warm-up.

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Presentation on theme: "1/7/16 Objective: SWBAT correctly name and predict the charge on any ion from the representative elements. Due Today: 1.5 inch 3 ring binder Agenda: Warm-up."— Presentation transcript:

1 1/7/16 Objective: SWBAT correctly name and predict the charge on any ion from the representative elements. Due Today: 1.5 inch 3 ring binder Agenda: Warm-up Ion Notes Partner Practice Mini Lab Quiz (Lewis Dot and Ions) Homework: “Formation of Ions” – Due 1/12 Warm-Up: Answer the following questions (write small  ) 1. Give the definition of a valence electron. 2. How many valence electrons can representative elements in energy levels hold? 3. How many valence electrons can elements in energy level one hold? 4. Draw the Lewis Dot Structure for the following elements Lithium, Aluminum, and Chlorine 

2 Notes: Ions Two ions are talking to each other in solution.
One says: "Are you a cation or an anion?" The other replys, "Oh, I'm a cation." The first asks, "Are you sure?" The reply, "I'm positive."

3 Valence Electron reminders:
Valence electrons are the electrons in the highest occupied energy level of an atom. It is the number of valence electrons that will determine the chemical properties of the element. Valence electrons are the only electrons used in chemical bonds. Electron dot structures are diagrams that show valence electrons as dots

4 Oxygen’s Valence Electron Representations

5 The Octet Rule: Atoms need a an octet to be stable
Atoms need to be stable like the noble gases!!! Noble gases are unreactive because they have full orbitals (a general electron configuration of ns2 np6), which happens to be a set of 8.

6 The Octet Rule Metallic Elements tend to LOSE their valence electrons leaving a complete octet in the next lowest energy level.

7 The Octet Rule Nonmetallic elements tend to GAIN electrons to achieve a complete octet. They can share too, but we’ll get to that later.

8 The Octet Rule THIS IS WHY ATOMS FORM COMPOUNDS!!!!
There are some exceptions to the octet rule.

9 Ion Formation Atoms are electrically neutral (the protons equal the electrons). An ion is formed when an atom gains electrons or loses electrons.

10 Formation of Cations Formed when an atom LOSES electrons and becomes positively charged. Almost always formed from metals in groups 1-13. These atoms have relatively few electrons in their highest energy level. It easier to get rid of these electrons and use the next lowest energy as its “full” shell or octet.

11

12 Formation of Cations Note that the name of cation is the SAME as the element name. Ex:A sodium atom (Na) forms a sodium ion (Na+). In general… Group 1 loses 1 e- and forms +1 cations Group 2 loses 2 e- and forms +2 cations Group 13 loses 3 e- and forms +3 cations The transition metals are “weird” and the charges will vary. However they will ALWAYS lose electrons to form cations. For example iron can lose 2 or 3 electrons to form two different cations: Fe+2 or Fe+3.

13 Formation of Cations Practice: Write the name and symbol of the aluminum ion. Name: Aluminum ion Symbol: Al3+

14 Formation of Anions Formed when an atom GAINS electrons and becomes negatively charged. Almost always formed from nonmetals in groups These atoms have mostly full orbitals in their highest energy level. It takes less energy to find the few electrons needed to get to a full orbital or octet.

15 Formation of Anions Note that the name of the anion is NOT THE SAME as the atoms name. The name typically ends in –ide. Ex: A chlorine atom (Cl) forms a chloride ion (Cl-). Ex: An oxygen atom (O) forms a oxide ion (O-2). In general… Group 15 gains 3 e- and forms -3 anions Group 16 gains 2 e- and forms -2 anions Group 17 gains 1 e- and forms -1 anions (this group of ions is also called the halides)

16 Formation of Anions Practice: Write the name and symbol of the nitrogen ion. Name: Nitride ion Symbol: N3-

17 More Practice?

18 Lets look at Sodium 11 p+ 11 p+ 10 e- 11 e- cation neutral +1
Sodium has 11 protons; 1 valence electron It is easier for Sodium to lose an electron to “be happy.” 11 p+ 10 e- 11 p+ 11 e- cation neutral +1

19 It is easier for Magnesium to lose 2 electrons to “be happy.”
Lets look at Magnesium It is easier for Magnesium to lose 2 electrons to “be happy.” 12 p+ 10 e- 12 p+ 12 e- cation neutral 2+

20 What is the ionic charge?
1+ and 0 e- b) 1- c) 0 and 18 e- b) 2- c) 3- and 46 e- a) 2+ b) 4- a) 1+ a) 2+ c) 4+

21 It is easier for Fluorine to gain 1 electron to “be happy.”
Lets look at Fluorine It is easier for Fluorine to gain 1 electron to “be happy.” 9 p+ 10 e- 9 p+ 9 e- anion neutral 1-

22 Lets look at Oxygen 8 p+ 8 p+ 10 e- 8 e- anion neutral 2-
Oxygen has 8 protons; 6 valence electron It is easier for oxygen to gain two electrons to “be happy.” O 8 p+ 10 e- 8 p+ 8 e- anion neutral 2-

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