What are the classification of matter?

Contributed by:
kevin
Matter can exist in three forms or phases: solids, liquids, or gases. A substance is defined as a matter which is homogeneous and of which all parts are alike. Substances are either elements or compounds. Compounds are pure substances that are composed of two or more elements.
1. The
Classification of
Matter
Atoms, Elements,
Molecules and
Compounds
2. PURE SUBSTANCE
Something that can not be
broken down into simpler matter
using physical methods.
There are two types of
Elements & Compounds.
3.  Are the simplest kind of
pure substance.
 There are ~ 110 elements,
each made of a different type
of atom (periodic table).
4.  Each element has a name and symbol.
5. Not all elements are equally
common.
6. Most elements can
exist as a single
atom (Fe, Cu):
Diatomic Gases
But some elements Hydrogen H2
(mostly gases) Nitrogen N2
Oxygen O2
usually exist as
Fluorine F2
diatomic molecules Chlorine Cl2
(groups of 2 Bromine Br2
atoms). Iodine I
7. Allotropes
Different structural forms of the same element.
Oxygen has 3 allotropes:
O
O2 O3
Monatomic
Oxygen Diatomic Ozone
(Single Oxygen Oxygen Molecule
Atom) Molecule
8. Allotropes of Carbon
Diamond Graphite
All are pure carbon. Each has a different structure.
Fullerenes Carbon Nanotubes
9.  Are pure substances that are
composed of multiple types of
elements (2 or more),
chemically bonded to one
another.
 Compounds can not be
broken down by physical
methods (they can be broken
down by chemical reactions).
10.  Have definite compositions,
with element ratios indicated by
subscripts (H2O).
 We call this building block
the “water molecule”.
11.  The properties of compounds
are very different from the
properties of the elements that
make them up!
12. Na + Cl  NaCl
13. MIXTURES
A mixture is something that CAN be broken
down into simpler materials using
physical methods.
There are 3 possible types of mixtures:
1) Element + Another Element
2) Compound + Another Compound
3) Element + Compound
14. MIXTURES
There are 2 main types of mixtures:
a) Homogeneous- The parts are distributed
evenly.
Examples: Salt water; syrup; air; brass.
15. MIXTURES
Homogeneous mixtures of liquids are called
solutions.
Homogeneous mixtures of metallic atoms
are called alloys.
16. b) Heterogeneous- The parts are distributed
unevenly.
Examples: Spaghetti and Meatballs;
Water + Oil mixture.
17. We learned that the properties of
compounds are TOTALLY DIFFERENT
from the properties of the elements that
make them up.
In contrast, the properties of mixtures ARE
related to the properties of the substances
that make the mixtures up.
Properties of
Saltwater
18. Matter Flowchart
MATTER
yes Can it be physically
no
separated?
MIXTURE PURE SUBSTANCE
yes Is the composition no yes Can it be chemically no
uniform? decomposed?
Homogeneous Heterogeneous
Mixture Mixture Compound Element
Solutions +
Alloys
19. What are each
of these?
Atom,
Element,
or
20. Four different molecules:
• Which are compounds?
21. Warmup 11/21/11 (R)
Types of Particles: Atoms or Molecules or Both?
Types of Matter: Elements or Compounds or Mixture?
22. Chemical Symbols Represent
Elements Chemical
Symbols are
either one or two
letters.
If one letter, it is
always
capitalized.
If two letters, the
first is
capitalized, the
A chemical symbol implies one second is lower
atom of that element. case.
23. Chemical Formulas show how many
atoms of each element are in one molecule
of an element or compound:
Chemical # of # of atoms # of Carbon
Formula elements total atoms
O2 1 2 0
H2O 2 3 0
C3H8O 3 12 3
C6H12O4Cl 4 23 6
24. Nuts, Bolts, Washers
Is it an element, compound, or mixture?
What are the element and compound formulas?
25. Nuts, Bolts, Washers
Is it an element, compound, or mixture?
What are the element and compound formulas?
26. Nuts, Bolts, Washers
Is it an element, compound, or mixture?
What are the element and compound formulas?
27. WRITING FORMULAS
When writing formulas, list the elements in
this order:
First…bolts. (Bo)
Second…nuts. (Nu)
Third…washers. (Wa)
Example: BoNuWa2
28. • All pure substances can be represented by a
Single Chemical Formula:
H2O
If it’s really a pure substance, you should only need to
write ONE chemical formula to describe it’s composition.
29. How many atoms of each
element are present in one
molecule of:
(NH4)2SO3
N……………. 2
H…………… 8
S……………. 1
O…………… 3
30. Practice with Vocabulary:
31. Methods of Mixture Separation
1) Mechanical Separation (often by hand)
takes advantage of physical properties
such as color and shape.
Example: Recycling Plastic, Paper, Metal
32. Methods of Mixture Separation
2) Magnetic Separation takes advantage of
the physical property of magnetism.
Separating Metals in
a Scrap Yard
33. Methods of Mixture Separation
3) Filtration takes
advantage of
the physical
property of the
state of
matter. A
screen lets the
liquid particles
through, but
traps the solid
particles. Example: Filtering Coffee, Spaghetti
34. A filter can
also be used
to separate
particles of
(ex. a window
screen, an air
filter, a sand
35. Methods of Mixture Separation
4) Decanting:
To pour off a
liquid, leaving
another liquid
or solid behind.
Takes
advantage of
differences in
density.
Example: To decant a liquid from a precipitate
or water from rice.
36. Methods of Mixture Separation
5 ) Distillation:
The
separation of
a mixture of
liquids based
on the
physical
property of
boiling
point.
Example: the distillation of alcohol or oil
37. A distillation tower or “still”
38. Methods of Mixture Separation
6) Evaporation:
Vaporizing a
liquid and
leaving the
dissolved
solid(s)
behind.
Used to
separate salt
solutions.
Example: Obtaining sea salt from sea water
39. Methods of Mixture Separation
Density Separation:
More dense components
sink to the bottom and
less dense components
40. Methods of Mixture Separation
7) Centrifuge:
Circular
motion helps
denser
components
sink to the
bottom faster.
Examples: The separation of blood or DNA from blood
41. Methods of Mixture Separation
8) Paper
chromatography:
Uses the property of
molecular attraction to
separate a mixture.
Different molecules
have different
attractions for the paper
(the stationary phase)
vs. the solvent (the
mobile phase)
Example: the separation of
plant pigments and dyes
42. Methods of Mixture Separation
crystallize out of a
solution once their
solubility limit is
reached as
the solution cools.
Examples: Growing Rock Candy or the Crystallization of a
Magma Chamber