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Modern Periodic Classification of Elements

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The Modern Periodic Classification of Elements in Modern Periodic Table with important concepts like Mendeleev Periodic Table, Alkali Metals, Dobereiner Triads, Modern Periodic Law. – PowerPoint PPT presentation

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Title: Modern Periodic Classification of Elements


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Modern Periodic Classification of Elements
Written by Ziyyara 29-04-2020
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Modern Periodic Classification of Elements
As we all know that the whole universe
constitutes chemistry in it. In the form of the
smallest unit that is atom, and after it comes to
molecules and modern periodic classification of
elements. The entire things which are there in
the universe are made up of elements. So to
understand the chemistry around us first there
is a need to understand its basic unit that is
element. Anything can be understood well if
there is a proper system. And to understand the
Classification of Elements there physical and
chemical properties there is a need of
classification.
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So, to understand the properties of elements we
have classified modern periodic classification
of elements. Various scientists have done their
contribution in this regard with the elements of
their time. As there is on-going discovery of
elements taking place till now as well. Thats
why modern periodic classification of elements
has an important stand in chemistry. Now let us
begin the journey with the ancient to recent one
classification. Dobereiner's triads in Periodic
Classification of Elements In Dobereiner's
triads- In 1817, a chemist decided to manage an
element in a table of a triad in which he
arranged elements in the order of atomic masses
that the atomic mass of the middle element is the
average of the first and third element in the
triad.
Group A element Atomic masses
Nitrogen 14.0
Phosphorus 31.0
Arsenic 74.09
Group B element Atomic masses
Calcium 40.1
Strontium 87.6
Barium 137.3
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  • (In first triad phosphorus mass is average of
    nitrogen and arsenic mass in second strontium
    has atomic mass which is a average of calcium and
    barium)
  • Limitation of Dobereiner Triads in Periodic
    Classification of Elements Lesson
  • The limitations of Dobereiners triads are as
    follows-
  • The discovery of new element has ruled out the
    triads law
  • Newly discovered elements are not satisfying the
    rule.
  • Only 5 Dobereiners triads were identified.
  • Several of the known elements were not fit into
    the triad.
  • After knowing these limitations, the new
    classification development had occurred.
  • Newlands Octaves law in Periodic Classification
    of Elements 10th Class
  • This idea of the periodic table consists of the
    idea of the law of octaves of the music of West
    like (do, re, mi, Fa, so, la, ti. Comparatively
    sa, re, Ga, ma, pa, Dha, ni (in Indian style
    way), according to his idea like the musical
    notes repeat itself in the same way in
    classification every eighth element in the order
    of their increasing atomic masses have its
    property repetition with the first element.
  • Indian and Western Musical Octaves for Elements
    Table

SA R e G a Ma P a D h a N i
Do R e M i Fa S o L a T i
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H L e B i B C N O
F N a M g Al S i P S
Cl K C a Cr T i M n F e
Co Ni C u Z n Y I n A s S e
Br R b S r Ce La Z r
  • Limitations of Octaves Law of Newland While
    Studying Periodic Classification of Elements
  • After calcium, there is no element that seems to
    have the same property as per the conditions of
    the law.
  • He imagined that only 56 elements are present in
    the whole world which had been included in the
    table as well.
  • Placement of some elements like Nickel and cobalt
    in the same slot where both are different in
    chemical properties. It created a fuss here to
    understand the table.
  • Discovered some noble gases in the environment
    like helium, beryllium, etc. This also affected
    the table because there is no place for place
    them in the table.

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Mendeleev Periodic Table One of the important
names when it comes to modern periodic
classification of elements, Mendeleev
contribution is enormous in terms of
classification. In 1869, when octave law was
rejected. Then one of the great scientists
Mendeleev, his periodic table was came into
effect. In his periodic table atoms were
arranged based on their fundamental property,
atomic mass, and chemical property. In his time
of formulation only 63 elements were known, so
he made his periodic table with those 63
elements. Mendeleevs table was divided into
horizontal rows and vertical columns. For his
arrangement of elements in the periodic table he
made its formulation with oxygen and hydrogen
(oxides and hydrides) then he wrote all his
observation on the cards (formula with oxides,
hydrides and atomic mass) he grouped together the
element which had the similar properties he
found that element with similar properties were
occupying same vertical columns and that similar
trend were observed in horizontal rows too In
his observations he formulated the periodic law
which states that The property of elements is a
periodic function of their atomic masses He
named the vertical column as groups and
horizontal rows as period.
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  • Standards of Mendeleev Periodic Table of Elements
  • Some gaps were left in the table for the element
    which were not discovered at that time so he
    said that the element which will be discovered
    later will occupy this position in the table
    without disturbing the existing sequence.
  • The table was found in the sequence of atomic
    masses as we can see in the table.
  • But some of the elements were placed before any
    other slightly light element of the table. For
    example cobalt (along with an atomic mass of
    58.9) was placed slightly higher than a nickel
    (along with the atomic mass of 58.7) and even we
    can see such anomaly in the periodic table
    classification of elements.
  • Eka - word of Sanskrit was emphasized by the
    Mendeleev to that undiscovered element in that
    time. It means that the undiscovered element
    would be mentioned in the hollow cards place or
    the unfilled slots of the periodic table of
    elements.

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For example- gallium, scandium, and germanium
and other element were discovered later, they
would add in the classification of the periodic
table of the element in the Sanskrit style of
Eka-silicon, Eka-boron, Eka-aluminium and other
further discovered elements like this. Further
discovered element of aluminium would be
discovered mentioned as Eka-aluminium and later
discovered as the -gallium in the table of the
elements of the periodic table.
Property Eka- aluminium Galli um
Atomic mass 68 69.7
Formula of oxides E2O3 Ga2 O3
Formula of chlorides ECl3 GaCl 3
  • Limitations of Mendeleev Modern Periodic
    Classification of Elements Table
  • He was not able to assign proper position for
    hydrogen
  • The gradation in atomic masses was not regular
    there was no number prediction of how many
    elements will occupy the empty spaces.
  • After the discovery of isotopes there was
    violation in Mendeleevs periodic law

Modern Periodic Table of Elements To make the
classification system easier Henry Mosley gave
the concept of ATOMIC NUMBER Hence, atomic
number became the fundamental property of the
element in the modern periodic table.
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  • Fundamental things to be noted for the Modern
    Mendeleev Periodic Table of Elements
  • Horizontal columns as periods total 7 in the
    list of the table in which five are at the top
    and two lanthanides and actinides at the bottom.
  • Vertical columns are known as groups they are
    total 18 in number.
  • Group 18 contains noble gases.
  • Each group has the same valency or valence
    electron in the outermost shells.

Till now we have discovered the 118 elements in
modern periodic table in 2016 oganesson was
discovered and added in the modern periodic
classification of elements table. Position of
Elements in the Modern Periodic Classification
Table There are 18 groups and 7 horizontal
columns in the modern periodic classification of
elements table.
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  • The element with the same number of valence
    electrons is there in the same group and as we
    descend to the group the number of shells goes on
    increasing.
  • The elements with different numbers of electrons
    but the same number of valence shells (that
    means the number of electrons in the valence
    shell is increasing but the number of shells
    remains same) were occupied in the same group.
  • Trends in the Modern Periodic Classification of
    Elements Table
  • As we move top to bottom in a group the atomic
    radius (the distance of outermost shell from the
    nucleus) will go on increasing because the
    numbers of shells are increasing, and as we move
    left to right in a period the atomic size goes
    on decreasing because nuclear force is
    increasing.
  • At the left extreme there are metals (group12)
    on the right side there are non-metals a zig zag
    line separating the metalloid which has the
    property of both metals and non- metals.
  • The effective nuclear charge is increasing from
    left to right so the tendency to lose electron
    is decreasing because they experience more
    nuclear pull as we move down the group the
    valence electron remain same but the number of
    shells are increasing, so the effective nuclear
    charge is decreasing and the tendency to lose
    electrons is increasing so tendency to behave as
    a metal is increasing along a group and
    decreasing across a period.
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