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The Periodic Table

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The Periodic Table Ch.4 – PowerPoint PPT presentation

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Title: The Periodic Table


1
The Periodic Table
  • Ch.4

2
(4-1) Johann Dobereiner
  • Law of Triads groups of 3 elements w/ similar
    properties

Li
Na
K
Ca
Sr
Ba
Cl
Br
I
3
John Newlands
  • Inc. atomic mass
  • Law of Octaves properties repeated w/ the 8th
    element

Li Be B C N O F
Na Mg Al Si P S Cl
4
Dmitri Mendeleev
  • Modern periodic system
  • Inc. atomic mass
  • Elements of similar properties fall in vertical
    columns
  • Dont always fit in inc. mass (Te, I)
  • Gaps where particular mass should fit

5
Henry Moseley
  • Arranged elements in order of inc. atomic

6
Periodic Law
  • Properties of elements are periodic functions of
    their atomic s
  • Regular repeating pattern

7
Periods Groups
  • Period horizontal row
  • Similar e- config.
  • Group (family) vertical column
  • Similar properties

8
Metals
  • Metal good conductor of electricity
  • Transition metals
  • d f-block
  • Not as reactive as Gr.1 2

9
Nonmetals Metalloids
  • Nonmetal poor conductor of electricity
  • Some of p-block
  • Semiconductor (metalloid) conduct electricity,
    but not well
  • Along stair-step (B, Si, Ge, As, Sb, Te)

10
Main Group Elements
  • Representative elements
  • Regular e- config.
  • s- p-block

11
Gr.1 Alkali Metals
  • Very reactive metals
  • 1 e- in highest E level
  • Burn in air
  • Extremely soft

12
Plasma
  • 4th state of matter
  • Mixture of particles that conducts electricity

13
Gr.2 Alkaline-Earth Metals
  • Reactive metals (less than Gr.1)
  • 2 e- in outer E level
  • Harder stronger than Gr.1

14
Lanthanides
  • Shiny transition metals

15
Actinides
  • Shiny transition metals
  • Radioactive (unstable nucleus)

16
Gr.13 Boron Family
  • Metalloid metals
  • Al used to be rare expensive


17
Gr.14 Carbon Family
  • Elements impt. to life (C) computers (Si Ge)

18
Gr.15 Nitrogen Family
  • N2 makes up ¾ of atmosphere
  • N P impt. to life

19
Gr.16 Oxygen Family
  • O2 necessary for respiration
  • Many stinky things contain S (rotten eggs,
    garlic, skunks)

20
Gr.17 - Halogens
  • Most reactive of nonmetals
  • 7 e- in the outer E level
  • Combine w/ metals to form salts
  • Ex K Cl- ? KCl
  • Salt - ions arranged in a regular 3-D
    pattern (crystal)

21
Gr.18 Noble Gases
  • Very low reactivity
  • Very stable
  • 8 e- (octet) in outer E level

22
Hydrogen
  • Most common element
  • Reacts w/ many elements
  • Alternative fuel source

23
(4-2) Characteristics of Metals
  • Shiny (luster)
  • Good conductors
  • e- free to move through a metal in all directions
  • Sea of e-



24
Characteristics of Metals
  • Ductile drawn into a wire
  • Malleable hammered or rolled into sheets
  • Alloy solid or liquid soln of 2 or more metals
    or sometimes nonmetals

25
Symbols
  • Metals will be in a crystal form attached to many
    other metal atoms
  • Monatomic symbols Fe, Hg,etc.

26
(4-3) Periodic Trends
  • Bond radius ½ the dist. from the center of 2
    like atoms bonded together

27
Atomic Radius
  • Inc. down a group
  • Add extra E levels
  • e- shielding reduction of attractive force b/w
    a nucleus outer e- due to cancellation of
    some charge by inner e-
  • Dec. across a period
  • Inc. charge of nucleus pull e- closer

28

29
Ionic Radius
  • Ions arent the same size as the atoms they come
    from
  • ions are smaller
  • Lose layers of e-
  • - ions are larger
  • Gain layers of e-

30
Ionization Energy
  • Amt of E needed to remove an outer e- in its
    ground state
  • Inc. across a period
  • charge inc. which holds e- more tightly
  • Dec. down a group
  • Outer e- farther from nucleus

31
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32
Electron Affinity
  • Ability of an atom to attract hold an e-
  • More negative across a period
  • charge inc. attraction to e- inc.
  • Dec. down a group
  • Shielding offsets charge attraction to e- dec.

33
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34
Melting Boiling Points
  • mp bp reach their max when d p orbitals are ½
    full then dec. again

p
d
35
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36
(4-4) Big Bang
  • 12-16 bya entire universe fit on pinhead
  • Exploded, but Ts were so hot only E existed
  • Expanded, cooled, atoms formed
  • Clouds of H accumulated gravity pulled them
    closer together inc. P T forming stars

37
Natural Elements
  • In hot center of stars, nuclear rxns took place
  • Nuclear rxn change in the composition of the
    nucleus of an atom
  • Fusion
  • The higher the T, the larger the element formed
  • 93 naturally occurring elements

38
Synthetic Elements
  • Transmutation changing 1 nucleus into another
    by radioactive disintegration or bombardment w/
    other particles

39
Cyclotron Synchrotron
  • Cyclotron accelerates charged particles to very
    high E
  • Forces fusion
  • Synchrotron times impulses to match
    acceleration of particles
  • Used for superheavy elements
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