The Periodic Table
Physical Science Unit 8
PERIODIC TABLEPart 1:
Early Tables
• Antoine Lavoisier – late 1700’s– Compiled a list of all known elements at the time and placed
them into four categories• Dimitri Mendeleev – late 1800’s
– Demonstrated a connection between atomic mass and elemental properties
– Ordered by increasing atomic mass– Into columns with similar properties– Left blank spaces for where he thought undiscovered elements
would be placed• Henry Moseley - 1913
– Ordered elements based on Atomic Number (number of protons)
Mendeleev’s Table
Periodic Law
• States that there is a periodic (recurring) pattern of chemical and physical properties of the elements when they are arranged by increasing atomic number (number of protons)
Modern Periodic Table
• Consists of boxes typically containing– Element name– Symbol– Atomic number– Atomic mass
• Boxes arranged in order of increasing atomic number with– Series of columns called groups or families– Series of rows called periods
Atomic Mass
• Mass of the atom is mostly a result of the protons and neutrons in the nucleus. – Electrons weigh almost nothing
• Unit of measurement is called the atomic mass unit or amu– 1 amu is equal to 1/12 the mass of a carbon-12
atom
Average Atomic Mass
• The mass of an element is determined by taking the average mass of all the isotopes of that element.
• It is this average mass that is used as the amu for the element on the periodic table
Why the Weird Shape?
• Elements are not only in numerical order of protons, but also grouped by characteristics and properties of elements
Columns and Rows
• Groups – the vertical columns of the periodic table– Representative elements in group have same
number of outer electrons– All elements in group have similar properties
• Periods – the horizontal rows of the periodic table– Rows indicate energy level of an atom’s electrons
Basic Structure
• 7 periods beginning with hydrogen• 18 groups
• Representative Elements – often called the “main group” and contains groups 1,2, and 13-18
• Transition Elements – (in the center) containing groups 3 to 12
• Element Classification – classified as metals, non-metals or metalloids
Types of Elements
• Metals – left side• Metalloids – in between• Non-metals - right side
Metals
• Characteristics – – 1. shiny (when smooth and clean) – 2. solid at room temperature– 3. good conductors of heat and electricity– 4. high mp and bp
• Most are malleable and ductile• Most elements are metals
Types of Metals
• Alkali Metals – group 1 elements (except for hydrogen)– Very reactive– Usually exist as compounds with other elements
• Alkaline Earth Metals – group 2– Very reactive– Usually exist as compounds with other elements
• Transition Metals – groups 3-12• Inner Transition Metals – 2 rows at the bottom of table
called the lanthanide series and the actinide series
Non-Metals
• Occupy the upper right side of the periodic table
• Low melting and boiling points• Generally gases or brittle, dull-looking solids– The only liquid at room temperature is bromine
Groups of Non-Metals
• Halogens – group 17– highly reactive and often found in compounds
with other elements
• Noble Gases - group 18– Very stable– unreactive
Metalloids
• Elements bordering the stair step line• Have chemical and physical properties of both
metals and non-metals
ELECTRONS AND THE PERIODIC TABLE
Part 2:
Electrons in Atoms
• Can use periodic table to determine number and position of electrons
• How?• Each row tells you what energy shell or level
you are in.– Energy level one has up to 2 electrons– Energy level two has up to 8 electrons
• In a neutral atom, there are the same number of protons as electrons
Valence Electrons• Use the periodic table to determine the
number of outer level electrons• Outer level electrons are called valence
electrons• Group number on periodic table tells you
number of valence electrons• Number of valence electrons determines
the chemical behavior of an element
Group number – 1 2 13 14 15 16 17 18
# of valence 1 2 3 4 5 6 7 8electrons
Lewis Dot Structure
• Use group number to determine number of valence electrons – also called electron dot
• Write chemical symbol then add dots one at a time up to 8 total
• Ex• Fluorine• In group 17 – so 7 valence e-• Chemical symbol – F• Dot structure• F
Octet Rule
• Most atoms are always trying through reactions to achieve a full set of 8 electrons in their outermost energy level.
• Bohr model doesn’t explain this, so we will delve a little bit into the quantum mechanical model to explain why this is so.
Magic Number “8”• Why 8? (remember energy level 3 with 18 e-?)• Energy levels don’t fill in sequential order.• The energy level have sections called orbitals
– Think of it like a theater having sections and each section has rows – ex. Balcony section: Row s
• That is how electrons work too• These rows or orbitals are called
– s, p, d, f– They are represented in blocks on the periodic table
• For any element beyond He on the table, the highest energy level electrons in any one particle period will be no more than 8 explaining the octet rule– Total number of electrons in lower energy levels can achieve their regular
amounts (2, 8, 18, 32)
Let’s Take a Closer Look• d-block electrons are always one energy level
lower than the s and p in the same period.• so valence electrons are the total of s and p
electrons.
Energy Levels and Orbitals• Energy level 1 –– Only s
• Energy level 2 – – s and p
• Energy level 3 –– s, p, d
• Energy level 4 – – s, p, d, f
nucleus
Actual Shapes
• Actual shapes look like this around the nucleus
Common Ion Charges• Because of this, we can use the group numbers
along with the octet rule to determine what ion an atom is likely to form for many of the representative elements
• Group 1 (alkali metals) – have 1 valence e-– They want to lose this one and go down to the lower
level that is full so form 1+ ions• Group 2 (alkaline earth metals) – have 2 valence e-
– They want to lose these two and go down to the lower level that is full so form 2+ ions
• Group 17 (halogens) – have 7 valence e-– They want to gain one more electron and fill their outer level and so form 1- ions
Images
• http://killgerm.com/images/periodic_table.jpg• http://img.sparknotes.com/figures/C/c3554c4
2f955f947b125020c2c00d830/carbon.gif• http://chemed.chem.pitt.edu/renovations/Per
iodicTable1.jpg• http://professormeyer.com/periodictable.jpg