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Prologue

Prologue. Physical Setting Earth Science Review Book pp.7-17. Image taken from libertyunion.schoolwires.net on 8/13/12. Objective #1. What is classification?. Classification. Grouping of similar events or objects based on their observable properties Examples:. Food in a grocery store .

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Prologue

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  1. Prologue Physical Setting Earth Science Review Book pp.7-17 Image taken from libertyunion.schoolwires.net on 8/13/12.

  2. Objective #1 • What is classification?

  3. Classification • Grouping of similar events or objects based on their observable properties • Examples: Food in a grocery store  Books in a library 

  4. Objective #2 • Describe the difference between observations and inferences.

  5. Observations • Observations involve the interaction of a person’s senses with the environment. • What are the five senses? • sight, smell, • hearing, • taste, touch Info taken from misshaleysclassroom.blogspot.com on 8/13/12.

  6. Sensory Perception • Sensory perception is using your senses to gather data. • Sensory perception is another way of saying “making an observation.” Image taken from bryanthechen.blogspot.com on 8/13/12.

  7. Instruments • Since our powers of observation are limited, we use instruments. • Instruments are used to extend our senses. Seismographs measure earthquake waves. Geiger Counters measure radioactivity.

  8. Our sense of sight is limited so we use many instruments to help our eyes. Hubble Space Telescope

  9. Inferences • Interpretations based on observable properties Phineas (orange hair) makes inferences after observing Ferb (green hair). Image taken from speechroomnews.blogspot.com on 8/13/12.

  10. Other terms for inference: • Interpretation • Conclusion • Hypothesis • Educated Guess Image taken from ralphpatterson.com on 8/13/12. In the study of science, inferences may become “facts” because of the discovery of additional collaborating evidence. This collaborating evidence comes from follow up scientific experiments and research that support the hypothesis or inference.

  11. Objectives #3 & #4 • Define measurement and give examples. • Be able to use the basics of the metric system. Why are metrics easier and important?

  12. Measurements • Describe the properties of objects numerically containing at least one basic dimensional quantity. • Or simply: a number with a label = 5.0 cm

  13. Metric System • Decimal system of units for measuring used internationally • Why is the use of the metric system encouraged? Image taken from directglobalfulfillment.com on 8/13/12.

  14. It is international. Image taken from wikipedia on 8/13/12.

  15. It is based on ten’s so it is easier for converting. Image taken from woodrow.org on 8/13/12.

  16. Objective #5 • Explain the 5 basic measurement quantities.

  17. 5 Basic Measurement Quantities • Mass • Weight • Length • Time • Temperature

  18. Mass- amount of material an object contains. • Measured in kilograms • Measured with triple-beam balance or electronic balance.

  19. Weight- pull of gravity on an object. • Measured in newtons using a scale. Image taken from onlinephys.com on 8/13/12. Image taken from onlinephys.com on 8/13/12.

  20. Length- distance between any two points. • Measure in meters using a meterstick. Yes, a ruler can also be used with smaller metric units like cm or mm.

  21. Time- measurable period during which an action, process or condition exists, continues or occurred. • In lab class, we will measure time in minutes and seconds using a stopwatch. • Basic Units of Time, Day and Year, are based on the motions of the Earth. See ESRT p.15.

  22. Temperature- measure of the average kinetic energy (KE) of the particles of a substance • In lab class we will measure metrically in Celsius with a thermometer. Can also be measured in Fahrenheit or Kelvin.

  23. Dimensional Quantities & Comparisions • Some properties of matter cannot be measured by a basic, single unit of measurement. Instead, mathematical combinations of the basic quantities must be used. • Examples:

  24. Objective #6 • Why is percent error helpful and can you solve a percent error problem?

  25. Percent Deviation or Error • Mathematical expression of a calculated error in percent. • Valuable in showing how close your answer is to a known value. • Formula (Not on ESRT):

  26. Objective #7 • What is density and can you solve a density problem?

  27. Density • Measure of how concentrated matter is. • Formula (ESRT p.1): • Labels for density are two dimensional such as g/mL or g/cm3 or g/cc

  28. The density of a uniform material is independent of size and shape of the material. • For example, cutting the sample in half, the density will remain the same.

  29. Objective #8 • Interpret a mass-volume graph.

  30. Mass-Volume Graphs • Slope= rise/run or Δy/Δx Image taken from physicstutorials.org on 8/13/12.

  31. Objective #9, 10 & 11 • What are the 3 phases of matter and explain their differences! • What factors can and can not affect the density of a substance? • Describe the phase of matter in which the density of most materials is at a maximum and explain how that is different for water. Why is this so special?

  32. Phases of Matter • Solid • Liquid • Gas A fourth phase of matter, Plasma, makes up the Sun and other stars. Image taken from cse.ssl.berkeley.edu on 8/13/12.

  33. The three phases of matter depend on the pressure or temperature in which the material is placed. Gas Liquid Solid Image taken from rockingham.k12.va.us on 8/13/12.

  34. Lowering temperature or raising pressure, matter generally changes from gas to liquid to solid. Image taken from chem.ufl.edu on 8/13/12.

  35. Raising temperature or lowering pressure, matter generally changes from solid to liquid to gas. Image taken from faculty.sdmiramar.edu on 8/13/12.

  36. Density and Phases of Matter • The density of a gas varies with temperature and/or pressure.

  37. When temperature increases, density decreases. • Why? Increasing temperature (kinetic energy) causes the gas particles to move faster, collide more often and spread out. When they have expanded or spread out, this decreases the density. Same change in density when pressure decreases.

  38. When pressure increases, density increases. • Why? When pressure is increased, this causes gas particles to get closer together (compressed) which makes them more dense. Same change in density when temperature decreases

  39. Maximum density of most materials is in the solid phase. • In order of decreasing density, 1st-Solid, 2nd-Liquid and 3rd-Gas Image taken from jmsalsich.edublogs.org on 8/13/12.

  40. The maximum density of water is reached when it occurs in the liquid phase. • Solid water (ice) floats on liquid water, therefore ice is less dense than liquid water. • Why??? Icebergs float on water Image taken from hyperphysics.phy-astr.gsu.edu on 8/13/12.

  41. When water molecules freeze, they expand as they form hexagonal crystals. This expansion actually makes the molecules farther apart in the solid phase.

  42. Water freezes at 0oCelsius. • Water has a maximum density of 1.00g/mL at 4oC Image taken from hyperphysics.phy-astr.gsu.edu on 8/13/12.

  43. What are some consequences that result from water being an exception to the maximum density rule?

  44. Objective #12 • Describe types of change and give examples of each.

  45. Characteristics of Change • Change is a natural state. The Earth is dynamic, meaning constantly changing. Change is to be expected, for it is the natural state of the universe. • Any change in an Earth system or object can be described as the occurrence of an event. Eruption of Arenal Volcano, Costa Rica Image taken from universetoday.com on 8/13/12.

  46. Shooting Stars (Meteors) Landslides • Events may occur suddenly. Lightning Strike Image taken from starchild.gsfc.nasa.gov on 8/13/12. Image taken from kidsgeo.com on 8/13/12. Image taken from en.wikipedia.org on 8/13/12.

  47. Formation of Grand Canyon • Events may take very long periods of time. Image taken from grand.canyon.national-park.com on 8/13/12. Movement of Continents Mountain Formation Image taken from http://www.destination360.com/north-america/us/wyoming/rocky-mountains on 8/13/12. Image taken from moorlandschool.co.uk on 8/13/12.

  48. Objective #13 • What are variables and how are they placed on a graph?

  49. Graphing-A Way to Show Data • When making a graph, the variable you know before you begin is graphed on the horizontal axis of the graph. This variable is called the independent variable. • The dependent variable is placed on the vertical axis. • Variables- factors involved in change. Image taken from mynasadata.larc.nasa.gov on 8/13/12.

  50. Steepness of graph indicates rate of change. • Steeper the line, the greater the rate of change • Flatter the line, the slower the rate of change Image taken from chestysoft.com on 8/13/12.

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