1. Atoms and the
Periodic Table

2. Atomic Structure
ATOM: the smallest particle that has the properties of an element.
From the early Greek concept of the atom to the modern atomic theory, scientists have built on and modified existing models of the atom.

3. ATOM BASICS
Atoms are composed of a positively charged nucleus surrounded by an electron cloud.
Nucleus (99% of atom’s mass): uncharged neutrons and positively charged protons.
Electron cloud: negatively charged electrons in constant motion creating a “cloud” like a fan.

4. Only certain orbits are allowed

5. The Bohr Atom was a “Solar System” model.

6. MODERN ATOMIC MODEL
By 1925, Bohr’s model of the atom no longer explained all observations. Bohr was correct about energy levels, but wrong about electron movement.
Electrons occupy the lowest energy levels available.
Energy increases as distance from the nucleus increases.
Electrons move in patterns of “wave functions” around the nucleus.
It is impossible to know an electrons velocity and location at any moment in time (Schrödinger).

7. This is very difficult stuff!
Schrödinger
In 1926 Schrodinger proposes an equation that gives the probability of finding an electron at any place in the atom.
Don’t worry, this won’t be on the test.

8. ORBITALS s orbital p orbitals
ORBITAL: the regions in an atom where there is a high probability of finding electrons.
s is the lowest energy orbital, and p is slightly higher
s orbital
p orbitals
“Dumbbell” shaped
“Spherical”

9. d and f are the next two orbitals
d and f are the next two orbitals. They occupy even higher energy levels and take on more complex shapes than s & p

10. VALENCE ELECTRONS Carbon 4 valence electrons
Electrons in the outermost energy level are called VALENCE ELECTRONS.
Valence electrons determine how an atom will act in a chemical reaction.
Atoms with equal numbers of valence electrons have similar properties.
We will learn how to determine the # of valence electrons in an atom later in this unit.

11. Organization of the Periodic Table
PERIODICITY: regular variations (or patterns) of properties with increasing atomic number. Both chemical and physical properties vary in a periodic (repeating) pattern.

12. PERIOD: horizontal row of elements on P.T.

13. GROUP (FAMILY):
vertical column of elements on P.T.

14. C Periodic Key 6 Atomic number (Z) Element’s symbol Carbon
# of electrons = # of protons (in a neutral atom)
# of neutrons = A-Z
# of protons = Z 6 C
Carbon
12.011
Atomic number (Z)
Element’s symbol
Element’s name
Atomic mass (A)

15. Recap- Subatomic Particles
Protons (+) = atomic number ALWAYS
Electrons (-) = atomic number (if its an ion adjust based on charge)
Neutrons (0) = Atomic Mass – Atomic Number
*Number of protons will NEVER CHANGE- that identifies the element
*Number of electrons and neutrons can change- creates ions and isotopes

16. Determining # P+, N, and E- from chemical symbols:
Mass #
Example 1: atom
# protons = 6
#electrons= 6
#neutrons= 14-6 = 8
Example 2: ion
# protons = 7
#electrons= 10
#neutrons= 15-7 = 8
No net charge 14 C 6
Atomic # 15
N3- 7
Net charge of -3

17. ISOTOPES
Isotopes are atoms that have the same # of protons, but a different # of neutrons.
Example:
Carbon-12 vs. Carbon-14
12C
Mass # = 12; Atomic # = 6 (6P, 6E, 6N)
14C
Mass # = 14; Atomic # = 6 (6P, 6E, 8N)

18. IONS
Ionization: the process of adding or removing electrons from an atom or group of atoms.
An ion has a net electric charge.
Cation: ion with a positive charge.
Ex: Na+
Anion: ion with a negative charge.
Ex: O2-

19. Valence electrons & electron dot diagrams
Review: The valence electrons are the outermost electrons in an atom. These are the electrons that are involved when there is a chemical reaction.
Looking at a periodic table, you can quickly determine how many valence electrons an atom has by what column it is in.

20. # of Valence electrons 2 1 2 3 4 5 6 7 8

21. ELECTRON DOT DIAGRAMS: visual representations of elements and their valence electrons
Standard form: 3 6 R 4 1 7 2 5 8
Order of electron/dot placement
element symbol
Example: O
6 valence electrons
Oxygen

22. How many dots are in an electron dot diagram of chlorine?1 7 17 35 Cl
Chlorine and all of the other halogens (column 17) have seven valence electrons.