Periodic Table. History Antoine Lavoisier – Father of Modern Chemistry 1829 German J. W....
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Transcript of Periodic Table. History Antoine Lavoisier – Father of Modern Chemistry 1829 German J. W....
Periodic Table
History
• Antoine Lavoisier – Father of Modern Chemistry
• 1829 German J. W. Dobereiner Grouped elements into triads– Three elements with similar properties– Properties followed a pattern– The same element was in the middle of all trends
• Not all elements had triads
Law of Octaves
• 1862 John Newlands developed Law of Octaves
• The elements showed a repetition in their chemical properties after 8 elements
• Used Atomic Weights but not actual values• Important because showed the first pattern of
repeating properties
Julius Lothar Meyer
• Meyer first table published 1864 containing 28 elements
• Arranged in order of Atomic Weight and made a clear horizontal relationship between Atomic Weight and Atomic Volume
• Allowed physical properties to outweigh chemical properties
• Anticipated Mendeleev by years
Meyer
• Left gaps to denote unknown elements• Not willing to make predicitions• More focused on Physical properties not
chemical properties• Bitter battle with Mendeleev• Lost to Mendeleev because of Mendeleev’s
forceful ways
Dmitri Mendeleev
• Mendeleev was known as the “Father of the Periodic Table”
• DOB: 1834-1907• Created the first table on 3-1-1869• Table had 70 elements• Used properties to set up table
History• Russian scientist Dmitri Mendeleev taught
chemistry in terms of properties• Mid 1800 – atomic masses of elements were
known• Wrote down the elements in order of
increasing mass• Found a pattern of repeating properties• Not first to develop system but his version had
the strongest impact
Mendeleev’s Table• Grouped elements in columns by similar
properties in order of increasing atomic mass• Found some inconsistencies - felt that the
properties were more important than the mass, so switched order.
• Found some gaps• Must be undiscovered elements• Predicted their properties before they were
found
Mendeleev
• Distinguished from competitors by a devotion to, and love for, the individuality of the elements that went hand in hand with an intimate knowledge of their chemical characteristics
• Focused on both physical and chemical properties
Mendeleyev Cont.
• Chemical Properties Used:I. Atomic Weight vs. Valancey• He could only predict these properties• His work preceded chemical advances by 30 years• Produced his table 27 years before the first
subatomic particle, the electron was discovered• Did not predict Noble Gases
Acceptance
• Mendeleev’s table received real acceptance in 1875
• Discovery of Scandium, Germanium and Gallium showed Mendeleev’s predictions were correct.
“The elements were not being arranged to make a periodic table, but to fit the periodic table”
Meyer vs. Mendeleyev
• Julius Meyer (1830-1895)
• Created a table that plotted:
• Atomic Volume vs. Atomic Weight
• Lost out to Mendeleev
• Published before Meyer• Final Table:• Atomic Weight vs. Valency• Table had 8 columns but
was missing Noble Gases• Discovered 30 years later
Modern Russian Table
Spiral Periodic Table
Changing of Table
• Henry Moseley (1887-1915) – changed table in 1913 by increasing atomic number
• Biggest Impact • Glenn Seaborg – rare earth series from Actinium
(89) up.• Current Table Used Today• Minor Changes – inner transitional Lu & Lr
replaced La & Ac • Bohr first linked Quantum Theory
Today’s Table
More History• First Elements Discovered:1. Carbon2. Sulfur3. Copper4. Gold & Silver5. Iron6. Tin7. Antimony8. Mercury9. Lead10. Oxygen (1772)
• First Classified Groups:1. Gases2. Non-Metals3. Metals4. Earths
2-23
The Modern Periodic Table• Our current periodic table shows elements in order of
increasing atomic number (#protons)• Elements in the same column have similar properties, and
are called a group or family. Groups are designated in two ways:
1. A Roman numeral (I through VIII) and a letter (A or B)2. An Arabic number (1-18)
• A horizontal row of elements is a period. Elements in the same period have properties that tend to vary in a regular fashion. Periods are designated by an Arabic number (1-7).
Vertical Columns
• Known as Groups or a Family• Elements in same group have similar physical
& chemical properties• Each group is identified by a group number
and group letter
2-25
Groups and Periods
Figure 2.19Figure 2.19
2-26
Similar Properties in Groups• Potassium metal reacts
violently with water to producing a basic solution and flammable hydrogen gas.
• All alkali metals react with water to produce hydrogen gas.
Figure 2.21
2-27
Classification of Elements• Groups
– IA Alkali metals– IIA Alkaline Earth Metals– VIIA Halogens– VIIIA Noble Gases
• Periods• Metals, Nonmetals, Metalloids• Main-group Elements, Transition
Metals, and Inner-transition Metals.
Figure from p. 73
2-28
Main-Group Elements and Transition Metals
• Main-group elements (also called representative elements) contain any element in the eight groups designated with the letter A. (In the Arabic numbering, groups 1, 2, and 13-18)
• Transition metals contain any element in the 10 groups designated with the letter B. (In the Arabic numbering, groups 3-12)
• Inner-transition metals contain the lanthanides and actinides listed separately at the bottom of the table.
2-29
Common Group Names• Some groups have descriptive names that are commonly
used instead of their group numbers.– Alkali metals
• Group 1 (IA) metals (hydrogen is a nonmetal)• are considered reactive because the react readily with
other elements and compounds– Alkaline earth metals
• Group 2 (IIA) metals• are more reactive than the transition metals but less
reactive than alkali metals
2-30
Common Group Names• Some groups have descriptive names that are commonly
used instead of their group numbers.– Halogens
• Group 17 (VIIA) nonmetals• exist naturally as diatomic molecules
– Noble gases• Group 18 (VIIIA) nonmetals• are also called inert gases• are so named because they do not chemically react
with other elements (with the exception of krypton and xenon)
1A
2A 3A 4A 5A 6A 7A
8A0• The elements in the A groups are called the representative elements
Transition metals
• The Group B elements
1A 2A
3A 4A 5A 6A 7A
8A
3B 4B 5B 6B 7B 8B 8B 8B 1B 2B
1 2
13 14 15 16 17
18
3 4 5 6 7 8 9 10 11 12
IA IIA
IIIB
IVB
VB
VIB
VIIB
VIIIB
IIIA
IVA
VA
VIA
VIIA
VIIIA
IB IIB
Other Systems
• Horizontal rows are called periods• There are 7 periods
• Group 1A are the alkali metals• Group 2A are the alkaline earth metals
• Group 7A is called the Halogens• Group 8 are the noble gases
The group B are called the transition elements
These are called the inner transition elements and they belong here
2-39
Metals, Nonmetals, and Metalloids• The periodic table has many classifications. Groups and
periods are one classification. Another classification denotes metals, nonmetals, and metalloids.– A stair-step line starting at boron (B) separates metals
(to the left of the line) from nonmetals (to the right of the line).
– The metalloids exist along the line. • Metalloids are elements that have physical
properties resembling a metal, but the chemical reactivity of a nonmetal.
Metals
Metals & Their Properties
• Metals are good conductors of heat and electricity
• Metals are malleable• Metals have high luster
Example of Metals• Copper is a relatively soft metal and a very good
electrical conductor
• Mercury is the only metal that exists as a liquid at room temperature
Non-metals
Nonmetals & Their Properties
• Carbon, the graphite in a pencil is an example of a nonmetallic elements
• Nonmetals are poor conductors of electricity
• Can be brittle• Non-lustrous • Many are gases at room temperature
Example of Nonmetals• Sulfur was once known as Brimstone
• Microspheres of phosphorus, a reactive nonmetal
Metalloids or Semimetals
• Properties of both• Semiconductors
Example of a Metalloid
• Silicon is a metalloid• Silicon is brittle like a nonmetal• Silicon has metallic luster• Silicon is a semiconductor of electricity
2-48
Metals, Nonmetals, and Metalloids
Figure 2.20Figure 2.20
Chapter 2: Atoms, Molecules, and Ions 49
Modern Periodic Table
Elements are divided into two main classes
EOS
Chapter 2: Atoms, Molecules, and Ions 50
Modern Periodic Table
Except for hydrogen, those elements to the left of the line are metals
EOS
Chapter 2: Atoms, Molecules, and Ions 51
Modern Periodic Table
Elements to the right of the line are nonmetals
EOS
Chapter 2: Atoms, Molecules, and Ions 52
Modern Periodic Table
Elements around the line are referred to as metalloids
EOS