Periodic Table - PowerPoint PPT Presentation

About This Presentation
Title:

Periodic Table

Description:

Periodic Table Chapter 6 Reminder STP Standard Temperature and Pressure 1 atm, 0 C Reference Point for most measurements Diatomics Eight elements are diatomic ... – PowerPoint PPT presentation

Number of Views:150
Avg rating:3.0/5.0
Slides: 59
Provided by: pmo77
Category:
Tags: metals | periodic | table

less

Transcript and Presenter's Notes

Title: Periodic Table


1
Periodic Table
  • Chapter 6

2
Periodic Table
  • Many different versions of the Periodic Table
    exist
  • All try to arrange the known elements into an
    organized table

3
Alternate Periodic Tables
4
Alternate Periodic Tables
5
Alternate Periodic Tables
6
Alternate Periodic Tables
7
Alternate Periodic Tables
8
Alternate Periodic Tables
9
Alternate Periodic Tables
10
History
  • 1869 - Russian chemist and teacher, Dmitri
    Mendeleev proposed a table for organizing
    elements
  • Mendeleev arranged the elements in a table based
    on increasing atomic mass.

11
History
  • Mendeleev placed elements next to each other with
    similar chemical properties
  • He would leave elements out of order based on
    atomic mass if they lined up better based on
    chemical properties

12
History
  • Mendeleev left spaces for elements not yet
    discovered
  • He predicted properties of elements that would
    fit in those spots
  • He predicted very closely the properties of Ge,
    Ga, Sc, and 5 others

13
History
  • 1913 - British physicist, Henry Moseley,
    determined the atomic numbers for the elements
  • The modern periodic table is arranged in order of
    increasing atomic number.

14
Periodic Table
15
Arrangement
  • Columns are called Groups
  • Numbered 1-18
  • Rows are called Periods
  • Elements in the same group have similar properties

16
Group Names
  • Group 1 - Alkali Metals
  • Group 2 - Alkaline earth metals
  • Group 17 - Halogens
  • Group 18 - Inert or Noble gases.

17
Group Names
  • Groups 3-11 Transition Metals
  • Bottom 2 rows Inner Transition

18
Phases at STP
  • Most elements are solids at STP
  • Hg and Br are liquids at STP
  • H, N, O, F, Cl and Noble Gases are all gases at
    STP

19
(No Transcript)
20
Periodic Law
  • Periodic Law When elements are arranged in
    order of increasing atomic number, there is a
    periodic repetition of their physical and
    chemical properties.

21
Valence Electrons
  • Electrons in outermost occupied energy level
  • Valence Electrons are responsible for most
    chemical properties
  • Elements in the same group have similar
    properties because they have the same number of
    valence electrons

22
Classifying Elements
  • Elements are classified into 3 groups based on
    their properties
  • Metals Left and Middle
  • Nonmetals Right
  • Metalloids - Staircase

23
Metals
  • Good conductors of heat and electrical current
  • High luster or sheen
  • Many are ductile, meaning they can be drawn into
    wires
  • Most are malleable, meaning they can be hammered
    into thin sheets

24
Metals
  • Metallic Character increases as you move towards
    the lower left
  • Most Metallic Element is Francium, Fr

25
Nonmetals
  • Most are gases at room temperature, some are
    solids, and one is liquid
  • Most are poor conductors
  • Most solids are brittle

26
Nonmetals
  • Non-Metallic Character increases as you move
    towards upper right
  • Most nonmetallic element is Fluorine, F

27
Metalloids
  • B, Si, Ge, As, Sb, Te
  • Have properties of both metals and nonmetals,
    based on conditions
  • Exceptions
  • Al and Po are metals
  • At is a nonmetal

28
(No Transcript)
29
Group Characteristics
  • Alkali Metals (Group 1)
  • H, Li, Na, K, Rb, Cs, Fr
  • All have 1 valence electron, tend to form 1 ions
  • Most reactive metals
  • Not found in nature by themselves, always
    combined with someone else
  • Have properties of metals but are softer and less
    dense

30
Group Characteristics (cont)
  • Alkaline Earth Metals (Group 2)
  • Be, Mg, Ca, Sr, Ba, Ra
  • All have 2 valence electrons, tend to form 2
    ions
  • Harder and more dense than alkali metals, but
    also have higher melting and boiling points
  • Highly reactive, but not as much as alkali metals
  • Not found by themselves in nature

31
Group Characteristics (cont)
  • Halogens (Group 17)
  • F, Cl, Br, I, At
  • All have 7 valence electrons, tend to form -1
    ions
  • Strongly non-metallic
  • Most active nonmetals
  • Have low melting and boiling points
  • Combine readily with metals to form salts

32
Group Characteristics (cont)
  • Noble Gases (Group 18)
  • He, Ne, Ar, Kr, Xe, Rn
  • Colorless gases that are extremely non-reactive
  • Full valence shell, non-reactive
  • All are found in small amounts in our atmosphere

33
Group Characteristics (cont)
  • Transition Metals (Groups 3-11)
  • Most are excellent heat and electrical conductors
  • Most have high melting points and are hard,
    except Hg
  • Less active than group 1 and 2 metals
  • Many combine with Oxygen to form oxides (Chemical
    property)
  • Many have more than one oxidation number
  • Form compounds that are colorful

34
Reminder
  • STP
  • Standard Temperature and Pressure
  • 1 atm, 0C
  • Reference Point for most measurements

35
Diatomics
  • Eight elements are diatomic molecules when alone
    in nature (exist as two atoms bonded together)
  • H2, N2, O2, F2, Cl2, Br2, I2, At2

36
Diatomics
  • Hydrogen and the Magic 7

37
Coloring
  • Color in the specific groups with your own color
    choices

38
Coloring
  • Color in the different classifications with your
    own color choices
  • Metals, Nonmetals, Metalloids

39
(No Transcript)
40
Orbital Blocks
41
Periodic Trends
  • How a property changes either across a period or
    down a group
  • Atomic Number
  • Atomic Mass
  • Atomic Radius
  • Ionic Radius
  • Ionization Energy
  • Electronegativity

42
Trends
  • Atomic number increases across a period.
  • Increasing number of protons
  • Atomic number increases down a group
  • Increasing number of protons

43
Trends
  • Atomic mass generally increases across a period.
  • Increasing protons, neutrons, and electrons.
  • Atomic mass increases down a group.
  • Increasing protons, neutrons, and electrons.

44
Radius
  • Atomic Radius measure of the size of the atom
  • Half the distance between two nuclei
  • Ionic Radius measure of the size of an ion

45
Trends
  • Atomic Radius decreases across a period
  • More protons to pull on the electrons
  • Atomic Radius increases down a group
  • Increasing electrons into more energy levels
    (more shells)

46
Ions
  • Atom, or group of atoms, that has gained or lost
    electrons
  • Cation positive ion
  • Anion negative ion

47
Ions
  • When an atom loses an electron, it becomes
    positively charged
  • The radius becomes smaller
  • Metals tend to lose electrons

48
Ions
  • When an atom gains an electron, it becomes
    negatively charged
  • The radius becomes larger
  • Nonmetals tend to gain electrons

49
Trends
  • Ionic Radius decreases for positive ions across a
    period
  • More protons to pull on the electrons
  • Ionic Radius decreases for negative ions across a
    period
  • More protons to pull on the electrons

50
Ionic Radius
51
Trends
  • Ionic Radius increases down a group
  • Increasing electrons into more energy levels
    (more shells)

52
(No Transcript)
53
Ionization Energy (IE)
  • Amount of energy required to remove an electron
    from an atom
  • Ca ? Ca e- 590kJ/mol
  • First ionization energy is removing the first
    electron
  • Second Ionization energy is removing the second
    electron after having the first removed
  • Ca ? Ca2 e- 1145kJ/mol

54
IE Trends
  • Ionization energy tends to increase across a
    period
  • More protons are able to hold on tighter to
    electrons
  • Ionization energy tends to decrease down a group
  • Electrons are farther away from the protons (more
    shells)

55
Electronegativity (EN)
  • Ability of an atom to attract an electron from
    another atom when in a compound.
  • Noble gases are usually omitted since they dont
    form compounds
  • Fluorine, F, is the most electronegative element
    with a value of 4.0
  • Francium, Fr, is the least electronegative
    element with a value of 0.7

56
EN Trends
  • Electronegativity tends to increase across a
    period
  • More protons are able to attract electrons better
  • Electronegativity tends to decrease down a group
  • Electrons are farther away from the protons (more
    shells)

57
Trends Summary
Property Period (L?R) Group (T?B)
Atomic Number
Atomic Mass
Atomic Radius
Ionic Radius
Ionization Energy
Electronegativity
58
Reactivity
  • Elements that are more reactive tend to either
    gain or lose electrons very easily
  • Elements that lose electrons easily have low IE
    and low EN
  • Lower left, Fr
  • Elements that gain electrons easily have high IE
    and high EN
  • Upper right, F
Write a Comment
User Comments (0)
About PowerShow.com