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Unit 5 Section 2 Notes

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Unit 5 Section 2 Notes Matter and Energy Kinetic Theory of Matter: Useful for seeing differences in the 3 common states of matter on earth: solid, liquid, and gas. – PowerPoint PPT presentation

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Title: Unit 5 Section 2 Notes


1
Unit 5 Section 2 Notes
  • Matter and Energy

2
Kinetic Theory of Matter
  • Useful for seeing differences in the 3 common
    states of matter on earth solid, liquid, and
    gas.

3
Kinetic Theory of Matter3 Main Points
  1. All matter is made of atoms and molecules which
    act like tiny particles that are always in
    motion.
  2. The higher the temperature, the faster the
    particles move.
  3. At the same temperature, heavier particles move
    slower than lighter particles.

4
Kinetic Theory
  • Using the Kinetic Theory of matter, explain why a
    balloon filled with helium goes flat faster than
    one filled with regular air.
  • According to the Kinetic Theory, at the same
    temperature, heavier particles move slower than
    lighter particles. Since oxygen carbon dioxide
    are more massive than helium, they dont escape
    out of the tiny microscopic holes as fast as
    helium.

5
Solid
  • Solid substances have a definite volume and
    definite shape.
  • Substances have a fixed position no freedom to
    change positions
  • Particles are held closely together by strong
    chemical attractions
  • Definite melting point

6
Solid
  • Diagram

7
Liquid
  • Liquid substances have a definite volume but no
    definite shape
  • particles are closely packed, but can still slide
    past each other
  • Take the shape of their container
  • Particles are close but not as close as a solid
  • Particles can move randomly and spread on their
    own

8
Liquid
  • Diagram

9
Viscosity
  • Viscosity resistance of a fluid to flow
  • Determined by the attraction of particles the
    stronger the attraction, the more viscous (thick)
    the liquid is.
  • Fluids with a high viscosity flow slowly, and
    fluids with a low viscosity flow quickly.
  • What is more viscous apple juice or maple syrup?

10
Gas
  • Gas particles do not have a definite volume or
    shape.
  • Particles are in a constant state of motion and
    rarely stick together
  • Expand to fill available spaces
  • Free to spread in all directions from areas of
    high concentration to areas of low
    concentrations.
  • Example scents of food or perfume
  • Have a low density

11
Gas
  • Diagram

12
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13
Gas
  • Gases exert pressure
  • Pressure force exerted per unit area of a
    substance
  • If there is too much pressure (too many helium
    particles) in a balloon, what happens?
  • A gas under pressure will escape the container if
    possible. Think about an air filled balloon that
    you let go.

14
Fluids
  • Fluids substances that can spread
  • Both liquids and gases can spread, so they are
    considered fluids.

15
Plasma
  • Plasma does not have a definite shape or volume
    considered to have the properties of fluids.
  • Most common state of matter in universe, but not
    on Earth
  • Makes up 99.9 of the universe
  • Plasma is superheated gas and is a collection of
    free moving electrons and ions
  • Conducts electricity

16
Plasma
  • Examples of natural plasma on earth
  • lightning
  • fire
  • Aurora borealis
  • Artificial plasma on earth includes fluorescent
    lights

17
Energy
  • Energy the ability to change or move matter
  • Examples of energy or sources of energy
  • heat, light, spring coiling, batteries
  • Energy must be added or removed to cause a change
    in state.

18
Energy
  • Energy must be ADDED to melt or evaporate
    substances
  • Aluminum must be melted before it can be recycled
  • As aluminum particles gain heat, particles move
    faster and break away from fixed positions and
    become liquids called melting

19
Energy
  • Energy must be RELEASED to make a gas become a
    liquid or solid again.
  • When H2O is a gas and molecules slow down the
    water vapor returns to a liquid (called
    condensation). When molecules slow down even
    more, the water goes to a solid (ice).

20
Energy
  • Energy relationship between solid, liquid, and
    gas diagram

liquid
gas
solid
Energy ABSORBED
Energy RELEASED
21
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22
Important Note
  • Changing the state of matter does NOT change the
    substance or mass.
  • Water, steam, and ice are all H2O the only
    change is the nature of attraction between
    molecules

23
Phase Change Diagram

Solid
Melting
Sublimation
Deposition
Freezing
Condensation
Liquid
Gas
Vaporization
24
Phase Changes
  • Evaporation change of a substance from a liquid
    to a gas.
  • Condensation change of a substance from a gas to
    a liquid.
  • Sublimation change of a substance from a solid
    to a gas.
  • Deposition change of a substance from a gas to a
    solid
  • Example Water vapor without becoming liquid-
    this is how snow forms in clouds.

25
Law of Conservation of Mass
  • Law of Conservation of Mass states that Mass
    cannot be created or destroyed.
  • Example Burning a match consider what you
    start and end with.

26
Trivia Question
  • Trivia Question If mass cannot be created or
    destroyed, then why do we have to replace our
    tires when the rubber wears away?

27
Law of Conservation of Energy
  • Law of Conservation of Energy states that Energy
    cannot be created or destroyed.
  • Energy can be converted from one form to
    another.
  • Example A wristwatch from chemical energy to
    mechanical energy.
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