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Chapter 7 Atoms

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Title: Chapter 7 Atoms


1
Chapter 7 Atoms Bonding
2
What is Chemical Bonding?
  • Chemical Bonding (def) the combining of atoms
    of elements to form new substances.
  • The rules of chemical bonding are determined by
    the structure of the atoms involved in the bond.

3
Lets Review a Little
  • Protons are positively charged and are located in
    the nucleus.
  • Neutrons have no charge (neutral) and are located
    in the nucleus.
  • Electrons are negatively charged and are located
    in the electron cloud surrounding the nucleus.
  • The electron cloud has energy levels called
    shells.

4
Lets Review a Little
  • Electron Shells
  • K Shell holds 2 electrons
  • L shell holds 8 electrons
  • M shell holds 8 electrons
  • (Actually the M shell can hold up to 18
    electrons, but youll learn more about that in
    chemistryalong with the N, O, P and Q shells)

5
Lets Review a Little
  • The outermost electron shell is called the
    valence shell.
  • The number of electrons in the valence shell
    determines how the atom will bond with another
    atom.
  • The electrons in the valence shell are called
    valence electrons.

6
Why do Atoms Bond?
  • It is an atoms goal to be as stable as possible.
  • For an atom to be stable, it must have a full
    outer shell.
  • Once an atoms outer shell is full, the atom is
    stable and it will not seek out another atom to
    bond with because it doesnt need any more
    electrons its outer shell is full.

7
Why do Atoms Bond?
  • The electron arrangement of the outermost energy
    level of an atom determines whether or not the
    atom will form chemical bonds.
  • For example, the noble gases do not form chemical
    bonds because their outer shells are full, so
    they are stable.
  • They are known as inert gases.

8
Why do Atoms Bond?
  • Atoms of elements other than the Noble Gas Family
    do not have filled outermost energy levels
    (shells).
  • Because of this, they bond with other atoms to
    ensure that their outermost energy levels are
    full.
  • There are a few ways that atoms are able to do
    this.
  • This is chemical bonding.

9
Atoms Want Stability!!!
  • Octet Rule
  • (Oct like octopus 8 legs)
  • most atoms form bonds in order to have 8 valence
    e-
  • They want a full outer energy level
  • like the Noble Gases!
  • Stability is the driving force behind bond
    formation!

10
1. Ionic Bonds
Rule electron e-
  • Ionic Bonds (def) Bonding that occurs because
    of the transfer of electrons.
  • Ions - charged atoms
  • either neg (-) or pos ()
  • formed by transferring e-from a metal to a
    nonmetal
  • The metal gives an e- and the nonmetal receives
    an e-.

11
1. Ionic Bonds
  • Before
  • Is either atoms outer shell full?
  • After
  • Are their outer shells full now?

12
1. Ionic Bonds
  • What holds the atoms together is their opposite
    charges.
  • Remember, opposites attract!!!!

13
Important Vocabulary of Ionic Bonds You Should
Know
  • Ion a charged atom ( or -)
  • Ionic Bonding Involves the transfer of
    electrons to bond atoms, some atoms gain
    electrons and other atoms lose electrons.
  • Ionization the process of removing electrons
    and forming ions. Energy is required for this
    process to occur.
  • Ionization Energy the energy required to form
    ionic bonds.
  • When an electron is removed from an atom, the
    atom absorbs energy
  • When an electron is gained by an atom, the atom
    releases energy.
  • Oxidation Number the charge on the atom after
    it gains or loses electrons in the process of
    chemical bonding.
  • Valence electrons the number of electrons in
    the outermost shell of an atom.
  • Electron affinity the tendency of an atom to
    attract electrons.

14
A. Properties of Ionic Bonds
  • Ions form a 3-D crystal lattice
  • This is because the ions are arranged in a
    specific way due to the way opposite charges
    attract and same charges repel.

15
A. Properties of Ionic Bonds
  • Crystal lattice gives ionic compounds great
    stability. (strong)
  • Different shaped crystal lattices also give ionic
    compounds interesting crystal shapes.
  • There are 6 basic crystal shapes.
  • These shapes help geologists identify minerals
    because 1 of the 5 must-have properties of
    minerals is that they have a crystalline
    structure.
  • Ionic compounds also tend to have high melting
    points.

16
2. Covalent Bond
  • Covalent Bond (def) bonding in which
    electrons are shared rather than transferred.
  • Co both
  • Valent valence shell

17
2. Covalent Bond
  • In covalent bonding, the positively charged
    nucleus of each atom simultaneously (at the same
    time) attracts the negatively charged electrons
    that are being shared.
  • The electrons spend most of their time between
    the atoms
  • The attraction between the nucleus and the shared
    electrons holds the atoms together.

18
Properties of Covalent Bonds
  • (def) The combination of atoms formed by a
    covalent bond is a Molecule.
  • Mole-cule means little lump.
  • (Mole lump, cule small)
  • A molecule is the smallest particle of a
    covalently bonded substance that has all of the
    properties of that substance.

19
Electron Dot Diagrams
  • Electron Dot Diagrams can be used to show how
    ionic and covalent bonds either transfer or share
    electrons.
  • In an electron dot diagram
  • The chemical symbol represents the nucleus and
    all inner electron shells.
  • The dots represent the number of valence
    electrons in the outermost electron shell
    (valence shell)

20
Electron Dot Diagrams
  • Transferring e- (ionic bonds)
  • Sharing e- (covalent bonds)

21
Electron Dot Diagrams
These show the electron dot diagrams of some
common elements
22
Comparison Chart
IONIC
COVALENT
transferred from metal to nonmetal
shared between nonmetals
Electrons
Melting Point
high
low
Soluble in Water
yes
usually not
yes (solution or liquid)
Conduct Electricity
usually no
crystal lattice of ions, form crystalline solids
molecules, odorous liquids gases
Other Properties
23
3. Metallic Bonds
  • Metals are elements that give up electrons easily
  • In a metallic solid, only atoms of that
    particular element are present (it is made of
    only one element)
  • In a metallic bond, the outer electrons of the
    atoms form an electron cloud or a sea of
    electrons.
  • All of the electrons become the property of all
    of the atoms so they can all fill up their outer
    shells.

24
3. Metallic Bonds
  • Because of the sea of electrons that the
    metallic bond produces, metals have very special
    properties
  • They are malleable
  • They are ductile
  • They conduct electricity very well.
  • They have a high melting point.

25
Comparing the Types of Bonds
  • Link to Dog Bone Bonding Analogy
  • Ionic bonds One big greedy thief dog!
  • Covalent bonds  Dogs of equal strength.
  • Polar Covalent bonds Unevenly matched but
    willing to share.
  • Metallic bonds  Mellow dogs with plenty of bones
    to go around.
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