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Using Visual Analogies to Engage Students

Using Visual Analogies to Engage Students. Gary Carlin, LLSO January, 2008. Analogies. A similarity between like features of two things, on which a comparison may be based: the analogy between the heart and a pump. Introducing New Ideas. Start with Non-Scientific Analogies.

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Using Visual Analogies to Engage Students

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  1. Using Visual Analogies to Engage Students Gary Carlin, LLSO January, 2008

  2. Analogies A similarity between like features of two things, on which a comparison may be based: the analogy between the heart and a pump.

  3. Introducing New Ideas • Start with Non-Scientific Analogies. • Students describe the item, process or experience. • Introduce “new idea” and identify the similar components.

  4. What Do You Like? • If you could only take one part of the pizza what would it be? • Crust • Cheese • Pepperoni

  5. Make The Connection • Niche – is all strategies and adaptations a species uses in its environment – how it meets its specific needs for food and shelter, …

  6. Find the Difference • Where does the analogy “fall apart”? • Can we modify the analogy or find a new analogy that is more similar?

  7. The Bicycle

  8. Homologies Same Structure Different Function

  9. GLOVES

  10. Darwin’s Finches

  11. Who Remembers?

  12. Listening to Music … Over Time

  13. Evolution of Man

  14. General & Specific

  15. Are Smarties in the Same Color Order?

  16. Gel Electrophoresis

  17. The Changing Coca-Cola Bottle

  18. Succession

  19. How do you arrange the clothes in your dresser?

  20. Food Webs

  21. Metamorphosis

  22. Review Lesson • “Reprocessing” of information • Students convert information from one form (ie. written passage) to another form (ie. storyboard) • Room for students to add in additional information (ie. Predictions, intermediate events, labeling, alternative pathways, additional examples, ect.)

  23. A Written Passage • In recent years, the striped bass population in Chesapeake Bay has been decreasing. This is due, in part, to events known as “fish kills,” a large die-off of fish. Fish kills occur when oxygen-consuming processes in the aquatic ecosystem require more oxygen than the plants in the ecosystem produce, thereby reducing the amount of dissolved oxygen available to the fish. One proposed explanation for the increased fish kills in recent years is that human activities have increased the amount of sediment suspended in the water of Chesapeake Bay, largely due to increased erosion into its tributary streams. The sediment acts as a filter for sunlight, which causes a decrease in the intensity of the sunlight that reaches the aquatic plants in the Chesapeake Bay ecosystem.

  24. Initial Organization • 1. Collect important information in a “condensed form”. • 2. Use a “guided template” to separate or categorize the information. • 3. Ready to “re-process” information or Regents Question.

  25. Human Impact Template So You Want Me To Read in Science Class, Why?

  26. The Regents Questions • Identify one abiotic factor in the Chesapeake Bay ecosystem involved in the fish kills. [1] • Identify the process carried out by organisms that uses oxygen and contributes to the fish kills. [1] • State one way humans have contributed to the decrease of the striped bass population in Chesapeake Bay. [1] • State how a decrease in the amount of light may be responsible for fish kills in the Chesapeake Bay area. [1]

  27. A Graph

  28. Graphing Skills First • Title • Graph Area Display • X-axis and Y-axis • Name, scale, range, units, max, min, optimum • The Relationship between X and Y

  29. Looking at Graphs Template

  30. The Regents Questions • State how nitrate pollution in the brook changed after the brook flowed through the deforested area. [1] • Explain how deforestation contributed to this change. [1]

  31. A Diagram

  32. Understand the Diagram • Step-by-Step (multiple pathways) • Information: Known/Unknown • Identify the Process(es) • Add in information

  33. Object Process Brainstorm

  34. The Questions Molecule A contains the (1) starch necessary for ribosome synthesis in the cytoplasm (2) organic substance that is broken down into molecules B, C, and D (3) proteins that form the ribosome in the cytoplasm (4) directions for the synthesis of molecules B, C, and D Molecules B, C, and D are similar in that they are usually (1) composed of genetic information (2) involved in the synthesis of antibiotics (3) composed of amino acids (4) involved in the diffusion of oxygen into the cell

  35. Review Lesson Structure • 1. Start by Modeling a method (steps) by which a Regents question should be “processed” (In a selected topic). • 2. Provide 2-4 Regents questions (same topic) students can practice the method. • 3. Mini-Lesson – on same topic • 4. Extended processing activity based on a Regents question. • 5. Student Presentations • 6. Summary – Regents Challenge Question

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