1. Periodic Table Trends Objectives:
I can predict chemical reactivity for an element based on its number of valence electrons and location on periodic table.
I can predict the charge for an element (ion) to reach maximum stability.
I can distinguish between metallic and non-metallic properties.
I can understand how the periodic table was organized by Mendeleev and Moseley.
I can graph and interpret periodic trends.

2. Chemistry 1/8/14 Objectives: Review Classroom Expectations
Analyze first semester grades.
Review Chemical Stability Concepts
Chemistry Midterm make-ups addressed ASAP
Homework:
Classroom Expectation Hand-out signed/returned.
Complete Chemical Stability Worksheet

3. ICP: /8/13 Objectives: Review Classroom Expectations
Analyze first semester grades.
Motion on Graph Worksheet
Chemistry Midterm make-ups addressed ASAP
Homework:
Student/Parent sign Classroom Expecation Hand-out
Complete Motion on Graph Worksheet

4. Chemistry 1/10/14 Objectives: Analyze first semester grades.
Review Periodic Trends Graphs
Review Chemical Stability Concepts
Homework:
Classroom Expectation Hand-out signed/returned.
Complete Chemical Stability Worksheet

5. Analyze First Semester Grades
Address reasons for scores.
Address your graphs

6. Periodic Properties and Trends
Atomic Radius:
-Size of an atom.
-The distance from the nucleus to the outermost energy level in picometers, pm. (1pm = 1x10-12 m)
Ionization Energy:
-The amount of energy needed to remove a valence electron from an atom.
-The amount of energy needed to overcome the attractive force the ve- has with protons in the nucleus.
-Energy required for an atom to become a cation, more stable.
Electronegativity:
-The degree of attraction one atom’s protons has toward another atom’s ve-.
-Determines the type of bond between the atoms, ionic or covalent.

7. Chemistry 1/13/14 Due: Chemical Stability Cross Word Puzzle
Classroom Expectation Hand-Out signed.
Objectives:
Review Chemical Stability Concepts
Review Periodic Trends Graphs
Homework:
Periodic Table Worksheet

8. Chemical Stability Worksheet

9. Periodic Trends: Atomic Radius
Across a Period
Decreases
Down a Group
Increases

10. Periodic Table : Atomic Radius

11. Periodic Trends: Ionization Energy
Across a Period:
Increases
Down a Group:
Decreases

12. Periodic Trend: Electronegativity
Across a Period:
Increases except
noble gases.
Down a Group:
Decreases except for noble gases.
mmsphyschem.com

13. Electronegativity and Chemical Bonding
Do metals or non-metals have a greater electronegativity value?

14. Periodic Trends Analysis
To determine why your term(atomic radius, ionization energy, or electronegativity) exhibits this trend across a period and down a group.
Think about the definition of your term and how it is affected across a period and down a group.

15. Periodic Trend Values
1. Use your atomic radius graph to rank the following elements in increasing atomic radius. Cl, Mg, Al, Na 2. Use your ionization energy graph to rank the following elements in decreasing ionization energy. Ba, Mg, Ca, Be

16. Chemical Stability Octet Rule:
Atoms will gain, lose, or share valence electrons to reach maximum stability.
What is maximum stability for most atoms?
8 valence electrons (ve-)
Exceptions: H and He max. stability = 2 ve-
How do atoms achieve stability ?
Atoms chemically bonding with other atoms.
Formation of diverse compounds in nature.

17. Chemical Stability: Octet Rule
Metals will lose ve- to reach stability.
Form a cation (+ charged)
Non-metals will gain ve- to reach stability.
Form an anion (- charged)

18. Chemical Stability-Key
Determine what type of charge each element below would form to reach maximum stability.
a. Sodium Na1+
b. Oxygen O2-
c. Argon Ar
d. Phosphorus p3-
Chromium Cr2+

19. Size of an Ion
Use the diagram below to determine what happens to the size of a neutral atom(parent atom) when it becomes an ion.

20. Size of a Cation
Why is the cation smaller than its parent atom (neutral)?

21. Size of a Cation A cation is smaller than its parent atom.
Why? Because metals will lose an energy level in the process
of becoming a cation.

22. Size of an Anion
Why is an anion larger than its parent atom?

23. Size of an Anion A anion is larger than its parent isotope.
Why? Repulsion force increases as more electrons are
added to the outer most energy level. Swells the energy level.

24. Size of Ions Circle the atom that is larger in size. Ca or Ca2+
S or S2-
Circle the atom that is smaller in size.
a. Al or Al3+
b. N or N 3-