THE P PP PERIODIC TABLE THEPERIODIC TABLETHE PERIODIC TABLETHEPERIODIC TABLETHE PERIODIC TABLE.
The Periodic Table and Periodic Law Chapter 6. Section 6.1: Development of the Modern Periodic Table...
-
Upload
albert-covan -
Category
Documents
-
view
215 -
download
2
Transcript of The Periodic Table and Periodic Law Chapter 6. Section 6.1: Development of the Modern Periodic Table...
The Periodic The Periodic Table and Table and
Periodic LawPeriodic LawChapter 6Chapter 6
Section 6.1: Development of Section 6.1: Development of the Modern Periodic Tablethe Modern Periodic Table
Late 1790’s- Lavoisier compiled a list Late 1790’s- Lavoisier compiled a list of 23 elements known at the time of 23 elements known at the time
By 1870- 70 known elementsBy 1870- 70 known elements John NewlandsJohn Newlands
Arranged elements by increasing atomic Arranged elements by increasing atomic massmass
Noticed properties repeated every Noticed properties repeated every eighth element (periodic) eighth element (periodic)
Law of OctavesLaw of Octaves
Dmitri MendeleevDmitri Mendeleev
RussianRussian 11stst periodic table periodic table Organized elements by Organized elements by propertiesproperties
Arranged elements by Arranged elements by atomic massatomic mass
Predicted existence of Predicted existence of several unknown elementsseveral unknown elements
Element 101 Element 101 Mendeleevium (Md)Mendeleevium (Md)
Henry Moseley
1913-performs 1913-performs experiments to determine experiments to determine the atomic number of the the atomic number of the known elementsknown elements
Afterwards arranges the Afterwards arranges the elements in the periodic elements in the periodic table table listing them by listing them by increasing atomic number increasing atomic number instead of by massinstead of by mass
Periodic LawPeriodic Law
When the elements are arranged When the elements are arranged in order of increasing atomic in order of increasing atomic number, there is a periodic number, there is a periodic repetition of their repetition of their physical and physical and chemical propertieschemical properties
The Modern Periodic TableThe Modern Periodic Table Groups- aka Groups- aka familiesfamilies (vertical (vertical
columns)columns) Each group is numbered 1-8 followed by Each group is numbered 1-8 followed by
the letter A or Bthe letter A or B Representative Elements-Representative Elements- designated designated
with an A (1A-8A)with an A (1A-8A) Transition Elements-Transition Elements- designated with designated with
a B (3B-12B)a B (3B-12B) 18 total groups18 total groups elements of any one group have similar elements of any one group have similar
physical and chemical propertiesphysical and chemical properties
Periods- horizontal rowsPeriods- horizontal rows 7 total periods7 total periods element properties change as you go element properties change as you go
across each rowacross each row the pattern of properties repeats from the pattern of properties repeats from
one period to the next one period to the next
Classifying the ElementsClassifying the Elements Three main classifications for the Three main classifications for the
elementselements MetalsMetals NonmetalsNonmetals MetalloidsMetalloids
MetalsMetals Physical PropertiesPhysical Properties
Luster (shininess)Luster (shininess) Good conductors of heat and electricityGood conductors of heat and electricity High density (heavy for their size)High density (heavy for their size) High melting pointHigh melting point Ductile (most metals can be drawn out into thin wires)Ductile (most metals can be drawn out into thin wires) Malleable (most metals can be hammered into thin Malleable (most metals can be hammered into thin
sheets)sheets) Chemical PropertiesChemical Properties
Easily lose valence electronsEasily lose valence electrons Corrode easilyCorrode easily
Alkali Metals-Alkali Metals- group 1A elements (except group 1A elements (except hydrogen)hydrogen)
Alkaline Earth Metals-Alkaline Earth Metals- group 2A elements group 2A elements
Metals Con’t.Metals Con’t.
Transition MetalsTransition Metals Group B elementsGroup B elements
Inner Transition MetalsInner Transition Metals Lanthanide- used as phosphors Lanthanide- used as phosphors
(substances that emit light when struck (substances that emit light when struck by electrons)by electrons)
ActinideActinide
NonmetalsNonmetals Physical PropertiesPhysical Properties
No luster (dull appearance)No luster (dull appearance) Poor conductor of heat and electricityPoor conductor of heat and electricity Brittle (breaks easily) or gaseousBrittle (breaks easily) or gaseous Not ductileNot ductile Not malleableNot malleable Low densityLow density Low melting pointLow melting point
Bromine is the only nonmetal liquid at room temperatureBromine is the only nonmetal liquid at room temperature Chemical PropertiesChemical Properties
Tend to gain valence electronsTend to gain valence electrons
Nonmetals Con’tNonmetals Con’t
HalogensHalogens Group 7AGroup 7A Extremely ReactiveExtremely Reactive
Noble GasesNoble Gases Group 8AGroup 8A Extremely UnreactiveExtremely Unreactive
MetalloidsMetalloids
Bordering the stair-step line Bordering the stair-step line Physical Properties Physical Properties
SolidsSolids Can be shiny or dullCan be shiny or dull DuctileDuctile MalleableMalleable Conduct heat and electricity better than Conduct heat and electricity better than
nonmetals but not as well as metals nonmetals but not as well as metals
Elements in the same group on the Elements in the same group on the periodic table have similar chemical periodic table have similar chemical properties because they have the properties because they have the same same valence electron configurationvalence electron configuration
Section 6.3: Periodic TrendsSection 6.3: Periodic Trends
The electron cloud surrounding the The electron cloud surrounding the nucleus is based on the probability nucleus is based on the probability and does not have a clearly defined and does not have a clearly defined edgeedge
Atomic size is defined by how closely Atomic size is defined by how closely an atoms lies to a neighboring atoman atoms lies to a neighboring atom
Atomic Radii TrendAtomic Radii Trend Trends within Trends within
periodsperiods Generally Generally
decreases as you decreases as you move left-to-right move left-to-right across a period across a period (row)(row)
Trends within Trends within groupsgroups Generally Generally
increases as you increases as you move down a move down a groupgroup
Ionic RadiusIonic Radius
An An ionion is an atom or a bonded group is an atom or a bonded group of atoms that has a positive or of atoms that has a positive or negative chargenegative charge When atoms When atoms lose electronslose electrons and form and form
positivelypositively charged ions, they always charged ions, they always become become smallersmaller
When atoms When atoms gain electronsgain electrons and form and form negativelynegatively charged ions, they always charged ions, they always become become largerlarger
Lose Electrons Smaller ionic radii
Gain Electrons larger ionic radii
Ionization Energy (I.E.)Ionization Energy (I.E.)
Ionization Energy-Ionization Energy- the energy required the energy required to remove an electron from a gaseous to remove an electron from a gaseous atomatom
11stst Ionization Energy- removes the 1 Ionization Energy- removes the 1stst electronelectron
22ndnd Ionization Energy- removes the 2 Ionization Energy- removes the 2ndnd electron… and so forth electron… and so forth
I.E. is an indication on how strongly an I.E. is an indication on how strongly an atom’s nucleus holds onto its valence atom’s nucleus holds onto its valence electronselectrons
Octet Rule- atoms tend to gain, lose or share electrons in order to acquire a full set of eight valence electrons
Octet Rule- atoms tend to gain, lose or share electrons in order to acquire a full set of eight valence electrons Hydrogen and Helium are exceptions (they’ll
be happy with 2 V.E.) Determines the types of ions likely to form
Elements on the right side tend to gain electrons
Elements on the left side tend to lose electrons
ElectronegativityElectronegativity
Indicates the relative ability of its Indicates the relative ability of its atoms to attract electrons in a atoms to attract electrons in a chemical bondchemical bond Noble gases form very few compounds Noble gases form very few compounds
so they are left outso they are left out In a chemical bond, the atom with the In a chemical bond, the atom with the
greater electronegativity more strongly greater electronegativity more strongly attracts the bond’s electrons attracts the bond’s electrons
In SummaryIn Summary
Atomic radius decreasesIonization energy increasesElectronegativity increases
Ato
mic
ra
diu
s in
cre
ase
sIo
niz
atio
n e
ne
rgy
de
cre
as
esE
lec
tro
ne
ga
tiv
ity
dec
rea
ses
1A
2A 3A 4A 5A 6A 7A
0
Matching Words for TestMatching Words for Test
ElectronegativityElectronegativity Ionization energyIonization energy Atomic radiusAtomic radius MetalMetal Transition metalTransition metal AnionAnion
Periodic lawPeriodic law CationCation PeriodPeriod GroupGroup ElectronsElectrons NonmetalNonmetal
HomeworkHomework
Page 174-175Page 174-175#29-#38#29-#38#40-#45#40-#45#47-#76#47-#76