JEOPARDY!

1. Cellular Transport – Moving Particles JEOPARDY!

2. JEOPARDY! Plasma Membrane Passive Transport Definitely Diffusion H2O Osmosis Analyzing Pics Active Transport 100 100 100 100 100 100 200 200 200 200 200 200 300 300 300 300 300 300 400 400 400 400 400 400 500 500 500 500 500 500

3. The plasma membrane has this permeability. $100

4. What is SEMI permeability? Back to Board $100

5. These are small openings in the plasma membrane. $200

6. What are PORES? Back to Board $200

7. The plasma membrane is made of these two components in a bilayer fashion. $300

8. What are phosphates and lipids (phospholipid bilayer)? phosphates lipids Back to Board $300

9. The functions of proteins and carbohydrates that stick out from plasma membrane. $400

10. What is to allow flexibility (proteins) and cell identification (carbs)? Back to Board $400

11. The reason why the plasma membrane is referred to as the “fluid mosaic model.” $500

12. What is because it is flexible like fluid and made of many different components? $500 Back to Board

13. Passive transport is responsible for moving this. $100

14. What are solutes? Back to Board $100

15. Passive transport moves particles in this direction. $200

16. What is WITH the concentration gradient? Back to Board $200

17. This type of passive transport is responsible for moving water particles. $300

18. What is osmosis? Back to Board $300

19. Diffusion will happen in order for the cell to reach this. $400

20. What is equilibrium? $400 Back to Board

21. This passive transport occurs when particles are too large to move through pores. $500

22. What is carrier-facilitated diffusion? Back to Board $500

23. The number of solutes that will move down in this scenario. $100

24. What is 6? Back to Board $100

25. The direction in which diffusion will occur in this instance. $200

26. What is OUT of the cell? Back to Board $200

27. Carrier-facilitated diffusion is needed under these conditions. $300

28. What is when solutes are too large to fit through the plasma membrane? Back to Board $300

29. 80% particles (inside cell) 20% particles (outside cell) The direction and amount of diffusion according to the cell below. $400

30. What is OUT of the cell and 30%? 50% particles (inside cell) 50% particles (outside cell) Diffusion of particles Back to Board $400

31. 30% particles (inside cell) 70% particles (outside cell) The direction and amount of diffusion according to the cell below. $500

32. What is INTO the cell and 20%? 50% particles (inside cell) DIFFUSION 50% particles (outside cell) $500 Back to Board

33. The direction of osmosis in the picture below. $100

34. What is to the RIGHT? Back to Board $100

35. The type of solution represented by the cell below. $200

36. What is a HYPERTONIC solution? Back to Board $200

37. This happens when a cell is placed in a hypotonic solution. $300

38. What is swell and possibly burst? Back to Board $300

39. Daily Double!!! This is the reason why cells in an isotonic solution do not change shape. $400

40. What is because the cells are in equilibrium with the solution already? Back to Board $400

41. This occurs to plants when submerged into a hypertonic solution. $500

42. What is wilt? Back to Board $500

43. The solution shown in picture C. $100

44. What is HYPOTONIC? Back to Board $100

45. 63% H2O 37% solute 90% H2O 10% solute The type of solution shown below. $200

46. What is HYPERTONIC? 63% H2O 37% solute 90% H2O 10% solute Back to Board $200

47. ? What the U-tube will look like after diffusion and/or osmosis occurs. $300

48. What is OSMOSIS will move water to the RIGHT? Back to Board $300

49. The EXACT process occurring here. $400

50. What is PHAGOCYTOSIS? Back to Board $400