1 / 40

Review: LIQUIDS & PHASE CHANGES

Review: LIQUIDS & PHASE CHANGES. solid to liquid . Melting. What phase of matter is “B”?. Pressure . A. B. C. Temperature . Liquid. ________is the gas phase of a substance normally solid or liquid at room temperature. Vapor. Freezing occurs by the release of _____. energy.

zlhna
Télécharger la présentation

Review: LIQUIDS & PHASE CHANGES

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Review: LIQUIDS & PHASE CHANGES

  2. solid to liquid • Melting

  3. What phase of matter is “B”? Pressure  A B C Temperature  Liquid

  4. ________is the gas phase of a substance normally solid or liquid at room temperature • Vapor

  5. Freezing occurs by the release of _____ • energy

  6. Describe a volatile liquid in terms of its rate of evaporation. • Evaporates quickly

  7. ______ is the resistance of a liquid to flow • Viscosity

  8. What phase of matter is “A”? A Pressure  B C Temperature  Solid

  9. What is the normal boiling point of water? • 100C

  10. Melting occurs by energy being ______. • absorbed

  11. ____________ is the temperature and pressure at which all 3 states of matter are at equilibrium • Triple point

  12. _______shows how states of matter are affected by changes in temperature/pressure • Phase diagram

  13. solid to gas • Sublimation

  14. The triple point of this substance occurs at: • 5.2 atm & 216.6 K

  15. __________ is a dynamic condition in which two opposing physical or chemical changes occur at equal rates in a given closed system • Equilibrium

  16. ________ is the temperature at which equilibrium vapor pressure equals atmospheric pressure • Boiling point

  17. _______ is the pressure exerted by a vapor in equilibrium with its corresponding liquid at a given temperature. • Equilibrium vapor pressure

  18. ____________ is the spontaneous mixing of two or more substances. • Diffusion

  19. When energy is added to a substance, the particles would move ___________ • Faster

  20. When does a liquid boil? • Equilibrium vapor pressure EQUALS atmospheric pressure

  21. When energy is taken away from a substance, the particles would move __________ • Slower

  22. What is the most abundant liquid? • Water

  23. _____________ is a force common to all liquids that tends to pull adjacent parts of a liquid’s surface together. • Surface tension

  24. List 2 examples of surface tension. • Meniscus • Droplets can form • Objects float • Capillary rise

  25. List a volatile substance • Rubbing alcohol • Nail polish remover • Gasoline • hairspray

  26. When a system at equilibrium is disturbed by application of a stress, it attains a new equilibrium position that minimizes the stress. This is known as ___________ • Le Chatelier’s Principle

  27. liquid to solid • Freezing

  28. C(s) + H2O(g) CO(g) + H2(g) If the concentration of H2O was increased, the system would shift to the ________ • Right

  29. How does a substance evaporate, if equilibrium vapor pressure is LOW? WHY? • SLOWLY! • B/c there are STRONG IM forces and requires MORE kinetic energy to become a vapor

  30. Describe a liquid in terms of particle spacing. • Particles are packed relatively closely together

  31. Describe a liquid in terms of particle motion. • Particles vibrate around MOVING points

  32. gas to liquid • Condensation

  33. Describe the general volume of a liquid and use KMT to explain. • Definite VOLUME- b/c particles are close together

  34. Describe the general shape of a liquid and use KMT to explain. • NO Definite SHAPE- b/c particles vibrate around moving points

  35. Describe a liquid-vapor system at equilibrium. • The number of particles leaving the liquid (vaporization) EQUAL the number of particles re-entering the liquid (condensation)

  36. gas to solid • Deposition

  37. What happens to the boiling point of liquids on top of Mt. Everest? WHY? • Boiling point is lower • B/c atmospheric pressure is lower

  38. liquid to gas • Vaporization

  39. What phase of matter is “C”? A Pressure  B C Temperature  Gas

  40. What is the difference between the IM forces during melting and freezing? • Melting = Less IM forces b/c more particle collisions • Freezing = MORE IM forces b/c particles are moving slower

More Related