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Chemistry Concepts

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Title: Atomic Structure & The Periodic Table Author: tessanda Last modified by: lcsugden Created Date: 3/24/2003 6:33:03 PM Document presentation format – PowerPoint PPT presentation

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Title: Chemistry Concepts


1
Chemistry Concepts
  • What is matter?
  • What are some phases of matter?
  • What are some properties of matter?
  • What does an atom look like?
  • How do you use the periodic table to predict
    element behavior?
  • What are chemical reactions?

2
Matter
  • Matter is anything that has mass and takes up
    space.
  • Examples?
  • Non-examples?
  • All matter has properties or characteristics

3
Properties of Matter
  • Physical Properties
  • Can be observed without changing the matters
    chemical composition.
  • Examples
  • Temperature
  • Length
  • Mass
  • Physical State (gas, liquid, solid)

4
Properties of Matter
  • Chemical Properties
  • Observed when matter changes into a new substance
  • Examples
  • Reactivity
  • Flammability

5
The Atom
  • An atom is the smallest building block of matter.
  • Atoms are made of neutrons, protons and
    electrons.
  • The nucleus of an atom is extremely small in
    comparison to the atom. It contains the neutrons
    and protons.

6
Atomic Particles
  • proton
  • Found in a nucleus with a positive charge. Number
    of these gives atomic number.
  • neutron
  • Found in the nucleus of an atom. It is almost
    identical in mass to a proton, but carries no
    electric charge.
  • electron
  • Found in the electron cloud surrounding the
    nucleus. This particle has a negative charge.

7
Atomic Energy Levels
  • The regions where electrons move are called
    energy levels because the electrons in the
    different regions have different amounts of
    energy.

8
Energy Levels cont
  • Each energy level can hold a fixed number of
    electrons.
  • The 1st energy level can hold 2 e-
  • The higher energy levels can hold up to 18 e-
    (usually 8e-)
  • An atom with its outer energy levels filled with
    electrons are more stable than ones without their
    outer levels filled.

9
Atoms Elements
  • An element is a substance that cannot be broken
    down into a simpler substance by chemical means.
  • An element is made up of only one type of atom.
  • Atoms of different elements can bond together for
    form compounds.
  • When elements bond together their chemical
    properties change.

10
Characteristics of Elements
  • Each element has different
  • Atomic Number number of protons
  • Mass Number number of protons plus the number
    of neutrons
  • Physical Properties
  • Chemical Properties

11
Brief History of the Periodic Table
  • German Lothar Meyer created a table that was an
    accurate (for the time) accounting of the known
    facts about each element, such as melting point
    and atomic volume. The table clearly showed the
    existence of periodic chemical families. In 1870
    Meyer's table and description of the periodic law
    was published.

12
History continued
  • A year earlier however, the 35 year old Mendeleev
    presented a much bolder and scientifically useful
    table. In it, the periodic relationship between
    chemical groups, that is, elements with a similar
    characteristics of reaction, is clearly
    illustrated. In a scientific triumph, gaps in the
    table accurately predicted undiscovered elements.

13
Mendeleevs Table
  • Although it is nearly 130 years old, Mendeleev's
    table differs little from the charts on the walls
    of laboratories today. The insight obtained in
    that productive decade resulted in a tool that
    furthers understanding and eases the use of
    chemistry in every laboratory in the world.

14
Periodic Table of Elements
  • The periodic table is organized like a big grid.
  • If you have ever looked at a grid, you know that
    there are rows (left to right) and columns (up
    and down).
  • The periodic table has rows and columns too, and
    they each mean something different.
  • The elements are placed in specific places
    because of the way they look and act.
  • The Periodic table is designed to help you
    predict what an element's physical and chemical
    properties are.
  • You can also predict what elements will bond with
    each other.

15
Organization of the Periodic Table
  • When you look at the picture to the right, you
    can see that the rows are different colors. Even
    though they skip some squares in between, all of
    the rows go left to right.
  • When you look at a periodic table, each of the
    rows are considered to be different PERIODS (Get
    it? Like PERIODic table)

16
Organization cont
  • In the periodic table, elements have something in
    common if they are in the same row. All of the
    elements in a period have the same number of
    atomic energy levels.
  • Every element in the top row (the first period)
    has one level for its electrons. All of the
    elements in the second row (the second period)
    have two level for their electrons. It goes down
    the periodic table like that. At this time, the
    maximum number of levels is seven.
  • Elements in a period are not alike in chemical or
    physical properties.

17
Organization cont
  • The columns in the Periodic Table are called
    GROUPS.
  • You can know properties of a certain element by
    knowing which group it belongs to.
  • The elements in a group have the same number of
    electrons in their outer shell.

18
Organization cont
  • Every element in the first column (group one) has
    one electron is its outer shell. Every element on
    the second column (group two) has two electrons
    in the outer shell. As you keep counting the
    columns and you'll know how many electrons are in
    the outer shell.
  • The elements in between, with the grey color, are
    called TRANSITION elements. They have special
    electron rules.

19
Reading the Periodic Table
  • When you look at the periodic table, you
    should notice that each box represents a
    different element, and each box contains vital
    information about the element .

20
Think inside the Box
  • The top number is the atomic number. The atomic
    number tells how many protons are in one atom of
    that element. Since no two elements have the same
    atomic number, no two elements have the same
    number of protons.

6 C Carbon 12.011
21
Thinking cont
  • The large letter is the element's symbol, and
    just below that is the element's name. Each
    element has its own unique symbol and name.
  • Below the name is the element's atomic mass.
  • The atomic mass is the number of protons plus the
    number of neutrons.

6 C Carbon 12.011
22
Chemical Reactions
  • Let's start with the idea of a reaction. In
    chemistry, a reaction is when two or more
    molecules interact and something happens. That's
    it. What molecules are they? How do they
    interact? What happens? Those are all the
    possibilities in reactions. The possibilities are
    infinite.

23
KEY POINT 1
  • A chemical change must occur. You start with one
    compound and turn it into another. That's an
    example of a chemical change. A steel garbage can
    rusting. That rusting happens because the iron in
    the metal combines with oxygen in the atmosphere.
    A refrigerator or air conditioner cooling air is
    not a reaction... That is a physical change.

24
KEY POINT 2
  • It could be ions, molecules or pure atoms. We
    said molecules in the above section, but a
    reaction can happen with anything, just as long
    as a chemical change occurs (not a physical one).

25
KEY POINT 3
  • Single reactions often happen as part of a larger
    series of reactions. Take something as simple as
    the leaves changing color in the fall. A whole
    series of reactions (hundreds actually) are
    needed to make it happen.

26
Bonding
  • When atoms combine, it is called bonding.
  • There are two types of bonds
  • Ionic
  • Covalent

27
Ionic Bonds
  • Sometimes, atoms will become more stable if they
    either gain or lose electrons.
  • For example, the element chlorine becomes more
    stable when it gains an electron, and sodium
    becomes more stable when it loses an electron. If
    an atom of chlorine and an atom of sodium come
    near enough to one another, an electron from the
    sodium can actually jump to the chlorine atom.
    However, the sodium atom now has more protons
    than electrons, so it has a positive charge. The
    chlorine atom now has an additional electron and
    so has a negative charge. These charged atoms are
    called ions.
  • Ions of opposite charges, like the sodium and
    chlorine ions, are attracted to one another in
    what is called an ionic bond.

28
Covalent Bonds
  • In other cases, two atoms will share the
    electrons so that each becomes more stable.
  • For example, oxygen, which normally has eight
    electrons, happens to become more stable when it
    has two additional electrons. If two oxygen atoms
    come together, they can each contribute a pair of
    electrons to be shared by both atoms.
  • This type of sharing is called a covalent bond.
  • In the case of the oxygen atoms, the electrons
    are shared exactly equally. However, in most
    cases, one atom pulls on the electrons more than
    the other. In these bonds, one side of the
    molecule is slightly more negative since the
    negatively charged electrons are closer to that
    side. These molecules are said to be polar (water
    is an example), whereas molecules which share the
    electrons equally are nonpolar.

29
Questions to Ponder
  • What is matter and what are some of its
    properties?
  • What are the differences between physical and
    chemical properties?
  • What are the 3 atomic particles, where are they
    located and what are their charges and masses?
  • What information about elements is in the
    periodic table?
  • How can the arrangement of the periodic table
    help you make predictions about the chemical and
    physical properties of elements?
  • Describe chemical reactions.
  • Compare/Contrast ionic covalent bonds.
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