States of Matter: Kinetic-Molecular Theory Explained

2. THE STORY CONTINUES…

3. …STATES OF MATTER Unit 1 (LESSON 5)

4. Unit 1 – LESSON 5 “STATES of MATTER”

5. MATTER: • all matter is composed of small particles (atoms ormolecules) • Kinetic-Molecular Theory of Matter states: (1) the DISTANCE between particles determines the state of the substance (2)particles are in constant motion (3)theMOTION of particles is different for each state of matter

6. MATTER: Kinetic-Molecular Theory of Matter … • describes the characteristics of the states of matter • explains the behavior of matter by examining the molecular forces between particles and their energy • matter maintains the same chemical composition regardless of the state matter in which it exists (e.g.) water is H2O whether it’s a solid, liquid or gas

7. MATTER: Kinetic-Molecular Theory of Matter … • particles of substances at a given temperature have the SAME average KINETIC ENERGY… • … this is due to the strength of the intermolecular attraction between particles • (e.g.) ROOM TEMPERATURE (20o C): some substances are solids, some liquids and others gases

8. GASES: Kinetic-Molecular Theory of Matter … • have the WEAKEST intermolecular forces • particles are FAR APART moving freely in all directions in a translational (straight line/linear) motion • when particles “COLLIDE” energy is transferred between the particles, but is NOT LOST

9. GASES: Kinetic-Molecular Theory of Matter

10. LIQUID: Kinetic-Molecular Theory of Matter … • have STRONGER intermolecular forces than gases • particles are still CLOSE TOGETHER, but are now in partial disorder as they move about • particles are FLUID (able to flow from place to place)

11. LIQUID: Kinetic-Molecular Theory of Matter

12. SOLID: Kinetic-Molecular Theory of Matter … • have the STRONGEST intermolecular force between the particles • particles are CLOSE TOGETHER arranged in an ordered pattern • particles have kinetic energy and are ALWAYS VIBRATING

13. SOLID: Kinetic-Molecular Theory of Matter

14. Summary: Kinetic-Molecular Theory of Matter

15. “3” Principle States of Matter: • Solid (definite shape & volume;atoms held tightly together w/ a vibrational motion) • Liquid(definite volume;shape of container;atoms loosely held together,atoms sliding over one another) • Gas (shape & volume of container; atoms NOT held together and moving in ALL directions)

16. “3” Principle States/Phases of Matter: • Solid • Liquid • Gas

17. TYPESof SOLIDS: • CRYSTALLINE (true):regular, orderly, repeating, crystalline lattice pattern • ALLOTROPES  same element, same state of matter, different atomic form (e.g.) Carbon [C]: graphite, diamond, nanotubes and buckyballs • AMORPHOUS:long, intertwiningchains or strands of atoms

18. TYPESSOLIDS: CRYSTALLINE and AMORPHOUS CRYSTALandAMORPHOUS ALLOTROPES

19. PROPERTIESof LIQUIDS: • ADHESION: a force that attracts particles of different substances to each other • COHESION:a force that attracts particles of the SAME substance to each other • SURFACE TENSION  the attraction of water molecules to each other at the surface • VISCOSITY:the resistance of a liquid to flow

20. PROPERTIES of LIQUIDS: ADHESION,COHESION&SURFACE TENSION and VISCOSITY ADHESIONandCOHESION VISCOSITY

21. PROPERTIES of LIQUIDS: ADHESION,COHESION&SURFACE TENSION and VISCOSITY http://apod.nasa.gov/apod/ap130424.html SURFACE TENSION

22. PROPERTIESof GASES: • EXPANSION: the spreading out of molecules filling a container regardless of its size due to the spacing between gas molecules • COMPRESSION:the compactionof same amount of gas molecules in a smaller containerdue to the spacing between molecules • DIFFUSION: the process where one gas mixes with another [SOLIDS and LIQUIDS can also diffuse] • EFFUSION:the process where gas escapes through a very small holes in a container

23. PROPERTIES of GASES: DIFFUSION andEFFUSION state the HEAVIER the gas’s molecular MASS, the SLOWER the diffusion (mixing) and effusion (escaping) of the gas molecules

24. MEASUREABLE PROPERTIES of GASES: • PRESSURE and VOLUME (Boyle’s Law): as VOLUMEincreasesPRESSUREdecreases [when TEMPERATURE remains CONSTANT] • PRESSURE and TEMPERATURE:as TEMPERATUREincreases PRESSUREincreases [when VOLUME remains CONSTANT] • VOLUME and TEMPERATURE (Charles’s Law):as TEMPERATURE increases a “flexible”VOLUMEincreases [when PRESSURE remains CONSTANT]

25. MEASURABLE PROPERTIES of GASES: PRESSURE andVOLUME (Boyle’s Law) as the VOLUME INCREASESPRESSURE DECREASES when TEMPERATURE is kept CONSTANT

26. MEASURABLE PROPERTIES of GASES: PRESSURE andTEMPERATUREas the TEMPERATURE INCREASESPRESSURE also INCREASES when VOLUME is kept CONSTANT

27. MEASURABLE PROPERTIES of GASES: VOLUME andTEMPERATURE (Charles’s Law) as the TEMPERATURE INCREASESVOLUME alsoINCREASES when PRESSURE is kept CONSTANT

28. “4th” State/Phase of Matter: PLASMA • ionized atoms stripped of their electrons(negatively charged subatomic particles of an atom) leaving positively charged nuclei tightly packed together • the state of matter of the starsand stellar nebulae • makes up 99% of the matter in our universe • also found in the outer-most layer of earth’s atmosphere = ionosphere • ionized gases are found in fluorescentand neonsigns and lightning

29. “4th” State of Matter: PLASMA

30. THE END FOR NOW… UNIT 1 (LESSON 5)

31. COMING SOON “CHANGES of STATE” UNIT 1 (Lesson 6)

32. THE STORY CONTINUES…

33. …CHANGING STATES OF MATTER Unit 1 (LESSON 6)

34. Unit 1 – LESSON 6 “CHANGING STATES of MATTER”

35. STATE OF MATTER depends on the BALANCE between TEMPERATURE and ENERGY • changing temperature causes a gain or loss in energy • changing the amount of energy causes a change in the motion of the particles • changing motion of the particles changes the distance and attraction of the particles to each other

36. What DOES CHANGE when changing States of Matter: • the energy of the particles (gainorlose) • the motion of the particles (fast or slow) • the attraction of the particles (more, less or none) • the distanceof the particles (close or farther apart) • without a change in temperature and energy (outside forces) , matter would remain in its current state due to INERTIA

37. MELTING occurs when: • temperature of a SOLID is raised • the SOLID’S particles gain energy • the particles of the SOLID movefaster • the attraction of the SOLID’S particles weakens • the distanceof the particles become farther apart  turns into a LIQUID

38. VAPORIZATION occurs when: • temperature of a LIQUID is raised • the LIQUID’S particles gain energy • particles of the LIQUID movefaster • the attraction of the LIQUID’S particles weakens • the distanceof the particles become farther apart  turns into a GAS

39. FORMS of VAPORIZATION: EVAPORATION = changing of the SURFACE molecules only of a liquid into a GAS BEFOREreaching the boiling point temperature BOILING= changing of ALL the liquid’s molecules throughout the liquid into aGAS AFTERreaching the boiling point temperature

40. MELTINGandVAPORIZATION:

41. SUBLIMATION occurs when: • temperature of a SOLID is raised • the SOLID’S particles gain energy • particles of the SOLID movefaster • the attraction of the SOLID’S particles weakens • the distanceof the particles become farther apart  turns DIRECTLY into a GAS

42. BOILING; MELTINGandSUBLIMATION:

43. CONDENSATION occurs when: • temperature of a GAS is lowered • the GAS’S particles lose energy • the particles of the GAS moveslower • the attraction of the GAS’S particles strengthens • the distanceof the particles become closer  turns into a LIQUID

44. FREEZING occurs when: • temperature of LIQUID is lowered • the LIQUID’S particles lose energy • particles of the LIQUID moveslower • the attraction of the LIQUID’S particles strengthens • the distanceof the particles become closer  turns into a SOLID

45. DEPOSITION occurs when: • temperature of a GAS is lowered • the GAS’S particles lose energy • particles of the GAS moveslower • the attraction of the GAS’S particles strengthens • the distanceof the particles become closer  turns DIRECTLY into a SOLID

46. CONDENSATIONandFREEZING:

47. LATENT HEAT: • “hidden heat” providing the energy for the molecules to be “rearranged” without making them move faster, which allows for continued melting/freezing or boiling/condensation without the overall temperature of the substance changing • HEAT of FUSION going from a solid to a liquid and a liquid to a solid • HEAT of VAPORIZATION going from a liquid to a gas and gas to a liquid

48. LATENT HEAT:

49. LATENT HEAT(hidden heat of physical changes): • the heat that is absorbed or releasedwhen a substance undergoes a physical phase change but does NOT makethe substance change temperature • the heat of the water in our atmospherethat creates weather patterns and provides the powerful energyof lightningand thunderstorms

50. Law of Conservation of Energy: • the TOTAL amount of ENERGY ALWAYS STAYS THE SAME regardless of how many times it undergoes a physical or chemical change • ENERGY can change FORM, but it can NEVERbe CREATED or DESTROYED