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Periodic Properties of the Elements

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Horizontal rows series or periods numbered 1-7 Notes the shell or principle QN ... Properties between metals and non-metals ... – PowerPoint PPT presentation

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Title: Periodic Properties of the Elements


1
Periodic Properties of the Elements
  • Chapter 7 AP Chemistry

2
I History and Development
  • Elements in pure form like Gold and Silver were
    known thousands of years ago
  • 31 elements were known in 1800 by 1865 the number
    had more than doubled to 63.
  • The increase lead to the grouping and
    classification of the elements

3
First Periodic Law
  • Properties of elements are a periodic function of
    atomic weight
  • Although Meyer also grouped elements like
    Mendeleev
  • Mendeleev was given more credit because he left
    blanks for un-discovered elements
  • Mendeleev

4
Modern periodic law
  • Henry Mosley
  • In 1913, by using x-ray spectra obtained by
    diffraction in crystals, he found a systematic
    relation between wavelength and atomic number,
  • Using Atomic number Mosley rearranged the
    elements noting that the elements were a periodic
    function of atomic number

5
Design of the Table
  • Rows and Columns
  • Horizontal rows series or periods numbered
    1-7 Notes the shell or principle QN
  • Vertical columns group or a family
    numbered 1-18 or 1A-8A, 1B-8B
  • Review electron configuration notation

6
Periodic Trends
  • Size of Atoms
  • Within each group the atomic radius tends to
    increase as you go down the group the principle
    QN increases size of the cloud gets larger
  • Within a period the atomic radius decreases as
    you go from left to right the effective nuclear
    charge increases the number of protons
    increases while the number of core electrons
    stays the same the outer electrons dont shied
    each other well

7
Ionization Energy (I)
  • I the energy required to remove the outermost
    electron from a gaseous atom or ion
  • I1 the energy to remove one electron I2 the
    second electron
  • Metals tend to give up e- to obtain a Nobel gas
    configuration

8
Ionization Energy Trends
  • Ist Ionization energy generally follows effective
    nuclear charge increases from left to right in
    periods and from bottom to top in groups
  • Except from group 2A to 3A there is a slight
    increase the second e- in the S sub-shell is
    harder to remove that the 1st P e-
  • GR 5A to 6A there is a slight increase due to
    repulsion of paired e-s in the P4 configuration
  • Every element shows large increase in IE when es
    are removed from a Nobel gas core

9
Electron Affinities
  • Is the energy change of the reaction of adding an
    electron to a gaseous atom or ion.
  • Tends to be an exothermic processes (Delta H is
    neg) although in some cases it is positive or
    endothermic
  • In general electron affinity tends to ( become
    more negative) from left to right in periods.
    There is very little change going down a group in
    the value.

10
Properties of Metal, Non-Metals Metalloids
  • Metals conduct heat and electricity are
    lustrous, malleable, and ductile
  • Tend to lose es to become cations
  • Form basic oxides metal oxides react with water
    to produce basic or alkaline solutions
  • Ex 7.7,7.8 in text

11
Metal Properties Cont.
  • Metal oxides an acid yield a salt and water
  • Ex 7.9,7.10 in the text

12
Non-Metal Properties
  • Poor conductors of heat and electricity are often
    dull in color and shatter if forged
  • Nonmetals tend to gain electrons form other sub
    and become anions
  • Non-metals from acidic oxides non-metal oxide
    react with water to form acidic solutions
  • Ex 7-12, 7-13 in text
  • Non-metal oxides a base yield a salt plus water
    ex 7.14, 715 in text.

13
Mettaloids
  • Boundary between metals and non-metals
  • Mettaloids can either gain or lose electrons
  • Al and Po are metals not mettaloids
  • Properties between metals and non-metals
  • Several are semiconductors and re important
    because of their use in circuits and computer
    chips
  • Metallic character increases from left to right
    and from top to bottom in a group

14
Group Trends
  • Alkali Metals
  • Soft, gray metals
  • Low Ionization energies lose es easily form
    1 cations very reactive
  • Electrolysis is a technique to force an electron
    back on a cation to produce a neutral metal the
    metals can be obtained

15
Alkali Metals
  • by passing an electrical current through a
  • molten salt.
  • The metals combine with hydrogen to from hydrides
    ex. 7.19, or with Sulfur to form Sulfides ex.
    7.20 or with chlorine to form chlorides. ex 7.21
  • The alkali metals react with water to produce
    hydrogen gas and hydroxides ex 7.22.
  • See examples of reactions with oxygen ex 7.23-7.25

16
Alkaline Earth Metals
  • Slightly harder and more dense than Alkali metals
  • 1st ionization energies are low but not a s low
    as alkali metals form 2 cations
  • Reactivity tends to increase as you progress down
    a group.
  • See examples of reactions 7.26 7-29
  • Got Milk?

17
Trends in Selected Non-metals
  • Hydrogen
  • Usually placed in grp 1A because of its 1s
    electron config. Although a non-metal
  • It reacts with other non-metals to form molecular
    cmps ex 7.30-32
  • Reacts with metals to form hydrides 7.31-32

18
Oxygen Family
  • Non-metallic top of family metallic at bottom
  • O, S, Se are typical non-metals O and S are
    allotropes molecules of elements with different
    structures ( O2, O3, S2, S4, S6, S8)
  • Polonium is a rare and radioactive element
  • See examples of reactions 7.33-36

19
The Halogens
  • All non-metals (astatine is radioactive seldom
    discussed)
  • All are diatomic in gas phase
  • Bromine normally a liquid iodine is normally a
    solid
  • See reactions 7.37-42

20
Nobel Gases
  • Mostly non-reactive
  • Some compounds of Xenon and Krypton are known
  • All monatomic gases
  • Highest ionization energies of any family
  • xenon tetrafluoride
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