Kinetic Theory

1. Chapter 16 Lesson 1 Kinetic Theory States of Matter Kinetic Molecular Theory Four States of Matter Thermal Expansion

2. Kinetic Molecular Theory • KMT • Tiny, constantly moving particles make up all matter. • The kinetic energy (motion) of these particles increases as temperature increases. • These particles are colliding with each other and the walls of their container.

4. Four States of Matter • Solids • low KE - particles vibrate but can’t move around • atoms held tightly into place • definite shape & volume

5. Four States of Matter • Liquids • higher KE - particles can move around but are still close together • indefinite shape • definite volume

6. Four States of Matter • Gases • high KE - particles can separate and move throughout container • indefinite shape & volume • move more quickly than particles that make up solids

7. Four States of Matter • Plasma • very high KE - particles collide with enough energy to break into charged particles (+/-) • gas-like, indefiniteshape & volume • stars, fluorescentlight bulbs, TV tubes

8. Phase Changes • Heat of fusion-melting • solid to liquid. • energy required to change a substance from the solid phase to the liquid phase at its melting point is known as the • some attractive forces are broken • Freezing • liquid to solid melting point = freezing point

9. Phase Changes • Heat of vaporization • energy required for the liquid at its boiling point to become a gas. • all attractive forces are broken • EX: steam burns, sweating, and… the drinking bird

10. Heating Curves • Evaporation • liquid to gas below the boiling point • Condensation • gas to liquid

11. Gas - KE  Boiling - PE  Liquid - KE  Melting - PE  Solid - KE  Heating Curves

12. Phase Changes • Sublimation • solid to gas • EX: dry ice, freeze drying, iodine

13. Phase Changes

14. Thermal Expansion • Most matter expands when heated & contracts when cooled. •  Temp causes  KE. Particles collide with more force & spread out. • EX: thermostats (bimetallic strip)

15. Heating Curves • Kinetic Energy • motion of particles • related to temperature • Potential Energy • space between particles • related to phase changes

16. Solid or a Liquid? • Amorphous solids and liquid crystals • two classes of materials don’t react as expected when changing states. • solids soften and gradually turn into a liquid over a temperature range • lack the highly ordered structure found in crystals • are typically long, chainlike structures that can get jumbled and twisted

17. The Strange Behavior of Water • Water molecules • unusual in that they have highly positive and highly negative areas • charged regions affect its behavior • as the temp drops the particles move closer together

18. The Strange Behavior of Water • Freezing water molecules • unlike charges are attracted to each other and line up so that only positive and negative zones are near each other. • water molecules orient themselves according to charge, empty spaces occur in the structure. • these empty spaces are larger in ice than in liquid water, so water expands when going from a liquid to a solid state.

19. Liquid Crystals • LCD • flow during the melting phase similar to a liquid, but they do not lose their ordered arrangement completely. • placed in classes depending upon the type of order they maintain when they liquefy • are highly responsive to temperature changes and electric fields. • ex: televisions, watches, clocks, and calculators