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Elements in periodic table

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The modern periodic table, based on atomic number and electron ... Sb Antimony, Te Tellurium, Po Polonium; properties between those of metals and nonmetals. ... – PowerPoint PPT presentation

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Title: Elements in periodic table


1
Elements in periodic table
  • With so many elements already found and the
    possibility of more being discovered, chemists
    needed a way to organize them. Many systems were
    tried in order to make some sort of pattern in
    their properties to match the table. The modern
    periodic table, based on atomic number and
    electron configuration, was created primarily by
    a Russian chemist, Dmitri Ivanovich Mendeleev,
    and a German physicist, Julius Lothar Meyer, both
    working independently. They both created similar
    periodic tables only a few months apart in 1869.
    Mendeleev created the first periodic table based
    on atomic weight. He observed that many elements
    had similar properties, and that they occur
    periodically, hence the name, periodic table. The
    modern periodic table elements are ordered by
    atomic number ( number of protons in the
    nucleus), not weight. For example, the elements
    lithium, sodium, potassium, rubidium, and cesium
    have similar chemical properties. The elements
    that immediate follow them, beryllium, magnesium,
    calcium, strontium, and barium, also have similar
    chemical properties. Elements in Mendeleev's
    table were arranged in rows called periods. The
    columns were called groups. Elements of each
    group had similar properties.

2
Nonmetals
  • Nonmetals
  • the elements that lack the properties of metals
    most often encountered as compounds or mixtures
    of compounds
  • some occur in their elemental forms and are very
    important e.g. Nitrogen (N2), oxygen (O2),
    carbon.
  • Properties
  • almost completely opposite of metals poor
    conductors of heat and electricity (except for
    graphite -- attributed to molecular structure).
  • Many are solids at STP, while many others are
    gases.
  • All of the group 0 (18) elements (the noble
    gases--mostly inert) are
    gases consisting of single atoms.
  • all other gaseous elements, hydrogen, oxygen,
    nitrogen, fluorine, and chlorine, are diatomic
    molecules--H2, O2, N2, F2, and Cl2.
  • Bromine and iodine are also diatomic, but bromine
    is a liquid and iodine is a solid at room
    temperature.
  • nonmetals also lack the malleability and
    ductility of the metals -- brittle
  • wide range of reactivity
  • Flourine is extremely reactive, reacting readily
    with almost all other elements.
  • Helium is inert and does not react with anything.

3
Metalloids
  • Metalloids are the elements found along the
    stair-step line that distinguishes metals from
    non-metals. This line is drawn from between Boron
    and Aluminum to the border between Polonium and
    Astatine
  • (exception Aluminum -- classified under "Other
    Metals)
  • list of metalloids
  • B Boron,
  • Si Silicon,
  • Ge Germanium,
  • As Arsenic,
  • Sb Antimony,
  • Te Tellurium,
  • Po Polonium
  • properties between those of metals and nonmetals.
    Generally, metalloids behave as nonmetals, both
    chemically and physically.
  • They are semiconductors conduct electricity,
    but not as well as metals.
  • e.g. silicon and germanium, used in solid-state
    electronics transistors made from semiconductors
    have reduced the size of electronic components to
    an almost microscopic level

4
Representative metals
  • The representative metals contain 3 main groups
  • alkali metals
  • alkaline earth metals,
  • post-transitional metals.
  • Alkali Metals
  • group IA (1) elements in the table
  • form hydroxides which are strongly basic (e.g.,
    potassium hydroxide--KOH), hence the term
    "alkaline"
  • have a very high metallic behavior and are good
    reducing agents.
  • crystallize with a body-centered cubic lattice in
    which the points are occupied by 1 ions.
  • sea of valence electrons throughout the entire
    lattice can wander throughout the metal ?high
    electrical conductivity and high heat
    conductivity.
  • high luster is due to the highly mobile electrons
    of the lattice. Light beams hit the electrons
    into oscillations, reflecting back
    electromagnetic energy as light. The softness,
    malleability, and ductility of the metals are due
    to the nature of the forces holding the lattice
    together. Since there is no net force or
    attraction between the ions, they can be moved
    from one lattice site to another.

5
The Alkaline Earth Metals
  • The alkaline earth metals are metallic elements
    in the group IIA (2) of the periodic table. They
    are called alkaline earth metals because the
    "earths" of this group, lime (CaO), and magnesia
    (MgO), give alkaline reactions.
  • All alkaline earth elements have an oxidation
    number of 2, making them very reactive. Because
    of their reactivity, the alkaline metals arenot
    found free in nature.
  • They have good metallic
    properties, including
    conductivity, reduction
    ability, luster, softness,
    malleability, and ductility,
    but not as well as the alkali
    metals. Their ions have an oxidation state of
    2. Like alkali metals, they form soluble
    sulfides, but unlike them, they form insoluble
    carbonates (calcium
    carbonate -- CaCO3 -- in
  • hard water).
  • List of alkaline earth metals
  • Be Beryllium
  • Mg Magnesium
  • Ca Calcium
  • Sr Strontium
  • Ba Barium
  • Ra Radium

6
The Post-Transition Metals
  • The post-transition metals the lower elements
    of group IIIA (13), IVA (14), and VA (15),
    arranged in a staircase like fashion.
  • Their properties have the same relationship to
    the alkaline earth metals
    as the
    alkaline earth metals have to the alkali metals..
    As you go up the
    group, their
    metallic character gets less and less.

    For example boron, which is above aluminum
    in group IIIA (13), is not a metal but

    a metalloid.
  • While these elements are ductile and malleable,
    they are not the same as the transition
    elements.These elements, unlike the transition
    elements, do not exhibit variable oxidation
    states, and their valence electrons are only
    present in their outer shell. All of these
    elements aresolid, have a relatively high
    density, and are opaque. They have oxidation
    numbers of 3, 4, and -3.
  • List of post-transition metals
  • group IIIA (13) Al Aluminum, Ga Gallium, In
    Indium, Tl Thallium
  • group IVA (14) Sn Tin, Pb Lead
  • group VA 15) Bi Bismuth

7
Transition metals
  • The 38 elements in groups 3 through 12 of the
    periodic table are called "transition metals". As
    with all metals, the transition elements are both
    ductile and malleable, and conduct electricity
    and heat. The interesting thing about transition
    metals is that their valence electrons, or the
    electrons they use to combine with other
    elements, are present in more than one shell.
    This is the reason why they often exhibit several
    common oxidation states.
  • three noteworthy elements in the transition
    metals family iron, cobalt, and nickel -- are
    the only elements known to produce a magnetic
    field (i.e. that can be magnetized)
  • The transition metals are the subgroups of
    elements intervening between groups IIA(2) and
    IIIA(13) in the periodic table. They are
    classified separately because of the filling of
    their d subshell orbitals.
  • All the transition elements are metallic, but
    unlike the representative metals, they are likely
    to be hard, brittle, and have high melting points
    because of the relatively small size of their
    atoms and the existence of some covalent binding
    between ions. There are exceptions, as in the
    case of mercury (Hg), which is a liquid. They
    have high electrical conductivity because of
    delocalization of the s electrons similar to what
    occurs in the alkali and alkaline-earth metals.

8
Transition metals, contd
  • transition metals have a great variety of
    oxidation states shown in its compounds. Because
    of electron spin, unpaired electrons give rise to
    paramagnetism. Paramagnetism is likely in
    transition metals because of the partial filling
    of the d subshell and the movement associated
    with the orientations of electrons.
  • Color of transition metals (and some of their
    ionic compounds) due to absorption of some of
    the frequencies of white light ? electronic
    transitions in the d subshell. The stored energy
    is then dissipated through heat.
  • transition metals also have complex ionic
    structures because of the availability of d
    orbitals
    for participating in chemical bonding.
  • List of transition metals
    ScScandium Ti Titanium V Vanadium Cr
    Chromium Mn Manganese Fe Iron Co
    Cobalt Ni Nickel Cu Copper Zn Zinc
    Y Yttrium Zr Zirconium Nb Niobium Mo
    Molybdenum Tc Technetium Ru Ruthenium Rh
    Rhodium Pd Palladium Ag Silver Cd
    Cadmium La Lanthanum Hf Hafnium Ta Tantalum
    W Tungsten Rh Rhenium Os Osmium Ir
    Iridium Pt Platinum Au Gold Hg
    Mercury Ac Actinium

9
Inner transition (rare earth) metals
  • thirty inner transition metals (also called rare
    earth elements) contain 2 series of elements
  • lanthanide series,
  • actinide series.
  • All of them in group 3 of the periodic table, and
    the 6th and 7th periods.
  • One element of the lanthanide series and most of
    the elements in the actinide series are called
    trans-uranium, which means synthetic or man-made.

10
Lanthanide series
  • The lanthanide series include the 15 elements
    from atomic numbers 57 (lanthanum) to 71
    (lutetium). Their electron configuration include
    the 4f and 5d energy levels. Because of the
    closeness of those two levels, there is
    considerable uncertainty in some electron
    configuration assignments. All the lanthanides
    form 3 ions as their principal chemical species.
    It is assumed that the ions are formed by losing
    the 6s2 and 5d1 (or 4f is 5d is not present)
    electrons. They generally occur together, except
    for promethium which has an unstable nucleus. The
    richest source mineral is monazite, a complex
    phosphate. They are very rare to find, hence
    their nickname--"the rare earth elements." Since
    they also have very similar chemical properties,
    separation is very difficult, involving
    fractional crystallization and ion-exchange
    techniques. The lanthanides also generally have
    an incomplete 4f subshell, resulting in
    paramagnetism.
  • List of lanthanides La Lanthanum Ce
    Cerium Pr Praseodymium Nd Neodymium Pm
    Promethium Sm Samarium Eu Europium Gd
    Gadolinium Tb Terbium Ds Dysprosium Ho
    Holmium Er Erbium Tm Thulium Yb Ytterbium
    Lu Lutetium

11
The Actinide series
  • The actinide series include the 14 elements that

    follow actinium (atomic number 89) from atomic

    numbers 90 to 103. The electron configurations of

    the actinides are even more uncertain than the

    lanthanides because the closeness of the energy

    levels and because the nuclei are unstable to

    radioactive decay. Only minute amounts of some

    elements are obtained because of their
    instability.
    All of the actinides are unstable with
    respect to
    alpha emission. The later members tend
    to undergo
    spontaneous fission, a fact which limits
    the number
    of elements possible. The actinides also
    seem to
    show a variety of oxidation states, unlike
    the
    lanthanides. Uranium, for example, has
    compounds
    in each of the states, 3, 4, 5, and
    6.
  • Lu Lutetium Thorium (Th) Pa Protactinium U
    Uranium (U) Np Neptunium Pu
    Plutonium Am Americium Cm Curium
    Bk Berkelium Cf Californium
    Es Einsteinium Fm Fermium
    Md Mendelevium No Nobelium Lr Lawrencium
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