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Chapter 3 Matter

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Chapter 3 Matter I. Properties & Changes in Matter Extensive vs. Intensive Physical vs. Chemical – PowerPoint PPT presentation

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Title: Chapter 3 Matter


1
Chapter 3 Matter
  • I. Properties Changes in Matter
  • Extensive vs. Intensive
  • Physical vs. Chemical

2
(No Transcript)
3
A. Extensive vs. Intensive
  • Extensive Property
  • depends on the amount of matter present
  • Intensive Property
  • depends on the identity of substance, not the
    amount

4
A. Extensive vs. Intensive
  • Examples
  • boiling point
  • volume
  • mass
  • density
  • conductivity
  • intensive
  • extensive
  • extensive
  • intensive
  • intensive

5
B. Physical vs. Chemical
  • Physical Property
  • can be observed without changing the identity of
    the substance
  • Click for movie
  • Chemical Property
  • describes the ability of a substance to undergo
    changes in identity

6
B. Physical vs. Chemical
  • Examples
  • melting point
  • flammable
  • density
  • magnetic
  • tarnishes in air
  • physical
  • chemical
  • physical
  • physical
  • chemical

7
B. Physical vs. Chemical
  • Physical Change
  • changes the form of a substance without changing
    its identity
  • properties remain the same

Chemical Change changes the identity of a
substance products have different properties
8
B. Physical vs. Chemical
  • Signs of a Chemical Change
  • change in color or odor
  • formation of a gas
  • formation of a precipitate (solid)
  • change in light or heat

9
B. Physical vs. Chemical
  • Examples
  • rusting iron
  • dissolving in water
  • burning a log
  • melting ice
  • grinding spices
  • chemical
  • physical
  • chemical
  • physical
  • physical

10
Chemical verses physical changeWhich one is a
physical change?
A. Sodium reacting B. Iodine changing
with chlorine. from a
solid to a gas
11
Matter
  • II. States of Matter
  • Kinetic Molecular Theory
  • States of Matter
  • Click for movie

12
Physical Properties
  • States of matter
  • solid liquid gas

13
A. Kinetic Molecular Theory
  • KMT
  • Particles of matter are always in motion.
  • The kinetic energy (speed) of these particles
    increases as temperature increases.

14
B. Four States of Matter
  • Solids
  • very low KE - particles vibrate but cant move
    around
  • fixed shape
  • fixed volume

15
B. Four States of Matter
  • Liquids
  • low KE - particles can move around but are still
    close together
  • variable shape
  • fixed volume

16
B. Four States of Matter
  • Gases
  • high KE - particles can separate and move
    throughout container
  • variable shape
  • variable volume
  • Click for movie

17
The States of Matter
18
Changes of State
  • Melting - the transition from the solid substance
    into a liquid
  • The melting Point
  • Freezing or Fusion - liquid to solid
  • The Freezing point
  • When does water melt?
  • When does water freeze?

19
Changes of State
  • Boiling or Vaporization or Evaporation
  • liquid to gas
  • Condensation - gas to liquid
  • Sublimation - solid to gas
  • Deposition - gas to solid

20
B. Four States of Matter
  • Plasma
  • very high KE - particles collide with enough
    energy to break into charged particles (/-)
  • gas-like, variableshape volume
  • stars, fluorescentlight bulbs, CRTs

21
Matter
  • III. Classification of Matter
  • Matter Flowchart
  • Pure Substances
  • Mixtures

22
A. Matter Flowchart
MATTER
yes
no
Can it be physically separated?
Homogeneous Mixture (solution)
Heterogeneous Mixture
Compound
Element
23
A. Matter Flowchart
  • Examples
  • graphite
  • salt pepper
  • sugar (sucrose)
  • paint
  • soda
  • element
  • hetero. mixture
  • compound
  • hetero. mixture
  • solution

24
B. Pure Substances
  • Element
  • composed of identical atoms
  • Ex copper wire, aluminum foil

25
B. Pure Substances
  • Compound
  • composed of 2 or more elements in a fixed ratio
  • properties differ from those of individual
    elements
  • Ex table salt (NaCl)

26
B. Pure Substances
  • Law of Definite Composition
  • A given compound always contains the same, fixed
    ratio of elements.
  • Law of Multiple Proportions
  • Elements can combine in different ratios to form
    different compounds.

27
B. Pure Substances
  • For example

Two different compounds, each has a definite
composition.
28
Pure Substances
29
C. Mixtures
  • Variable combination of 2 or more pure substances.

Heterogeneous
Homogeneous
30
C. Mixtures
  • Solution
  • homogeneous
  • very small particles
  • no Tyndall effect
  • particles dont settle
  • EX rubbing alcohol

31
C. Mixtures
  • Colloid
  • heterogeneous
  • medium-sized particles
  • Tyndall Effect
  • particles dont settle
  • EX milk

32
C. Mixtures
  • Suspension
  • heterogeneous
  • larger particles
  • Tyndall Effect
  • particles settle
  • EX fresh-squeezed lemonade with pulp

33
Heterogeneous Mixtures
  • Heterogeneous mixtures occur when you can see the
    physical differences between the substances.
  • Is a salt and water mixture a heterogeneous
    mixture?
  • Is a mixture of sand and water a heterogeneous
    mixture?

34
C. Mixtures
  • Examples
  • milk
  • muddy water
  • fog
  • salt water
  • Italian salad dressing
  • colloid
  • suspension
  • colloid
  • solution
  • suspension

35
Compounds and Mixtures
36
Physical Separation Techniques
  • Mixtures are combinations of two or more
    substances that when mixed do not change.
  • Therefore, physical properties can be used to
    separate them.
  • What physical properties could be used?
  • Think about how you could separate iron, salt and
    sand.
  • Total Cereal

37
Physical Separations
  • Filtering
  • Separation by the physical property of
    solubility. One substance is soluble the other
    is not.
  • Coffee filters
  • Tea bags
  • Spaghetti

38
Physical Separations
  • Chromatography
  • Separation by solubility, mass or bonding
    properties
  • Separation of inks
  • Separation of MM dyes
  • Separation of leaf pigments.

39
Physical Separations
  • Distillation
  • Separation by the physical properties of melting
    point or boiling point
  • Purifying water

40
Physical Separations
  • Are used to separate substances present in a
    mixture by using any physical property that is
    different between the two substances.
  • What are the substances that make up a mixture?
  • If the substances are not mixtures then they must
    be pure.
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