1. Modern Biology Term 1/3 Review

2. Make sure you go over all of your learning targets.

3.  Characteristics of life  Scientific Method  Hypothesis vs. Theory  Microscope techniques

4. What are the characteristics of life?

5. Biology The study of life Characteristics of Life ▫Organization ▫Cells ▫Response to Stimuli ▫Homeostasis ▫Metabolism ▫Growth and Development ▫Reproduction ▫Change Through Time

6. What are the levels of organization?

7. Organization and Cells ATOM BIOLOGICAL MOLECULE ORGANELLE CELL TISSUE ORGAN

8. What is Homeostasis? What is Metabolism?

9. Homeostasis Metabolism The maintenance of a stable level of internal conditions even though environmental conditions are constantly changing. The sum of all the chemical reactions that take in and transform energy and materials from the environment. Homeostasis & Metabolism

10. What is the Scientific Method?

11. Steps of the Scientific Method 1.Observation: the act of perceiving a natural occurrence 2.Forming a Hypothesis 1.A statement that explains observations and data and can be tested 3.Test Hypothesis 1.Experimenting -Control group vs Experimental group 2.Independent variable vs dependent variable 4.Record and Study Data 5. Write a conclusion

12. How do I determine the magnification of a microscope?

13. What’s my power? To calculate the power of magnification, multiply the power of the ocular lens by the power of the objective. What are the powers of magnification for each of the objectives we have on our microscopes?

14. Chapter 2 Atoms Periodic Table of Elements Enzymes and Activation Energy Properties of Water

15. What is an atom and what 3 things make up an atom?

16. ATOMS the simplest particle of an element that retains all of the properties of that element

17. How do I use the Periodic Table? I can determine the atomic number? ▫I can determine the number of protons? I can determine the atomic mass? ▫I can determine the number of neutrons and electrons? I can find the chemical symbol?

18. Periodic Table of the Elements ▫Atomic number: number of protons in the nucleus ▫Chemical symbol: consists of 1,2, or 3 letters and is usually derived from the name of the element ▫Atomic mass: the sum of the number of protons and neutrons in the nucleus 2 He Helium 4

19. What is Activation Energy?

20. Activation Energy: Amount of energy needed to make a reaction begin. Abbrev = E act

21. What do cells use to reduce the activation energy?

22. Enzymes ▫Made of protein ▫biological catalysts  reduce the E act to cellular temperatures  speeds the reaction to maintain life

23. What is Polarity? What molecule is polar? Why?

24. POLARITY In covalent bonds where the “sharing” is unequal (like in water). Because of this uneven pattern of charge, water is a polar compound.

25. Chapter 3 Lipids Carbohydrates Proteins Nucleic Acids

26. What are carbohydrates?

27. Carbohydrates Simple sugars

28. What are lipids?

29. Lipids Are made up of fatty acids and glycerol ▫Examples: saturated fats, waxes, cholesterol, hormones Lipids are made up of long CH 2 or Carbon chains This is how we store excess glucose

30. What are proteins?

31. Long chains of amino acids

32. What are nucleic acids?

33. Nucleic Acids Are made up of nucleotides Examples are DNA and RNA ▫DNA is are genetic information and stores all of the instructions the cells needs to do its job ▫RNA help get the instructions to the cell

34.  The Discovery of Cells  Organelles of a cell  Two basic types of cells – Prokaryotic vs Eukaryotic  Relationships between size, shape, function, etc  Distinguish between plant and animal cells  Makeup of a multicellular organism – cells – tissues – organs – organ systems - organism

35. Who had great hair and who didn’t?

36. The History of Cell Robert HookeAnton von Leeuwenhoek 1665 Created the first microscope Studied cork and saw “little boxes” 1673 Dutch trader, considered to be the father on microbiology Made better lens

37. Prokaryotic and Eukaryotic Cells What are prokaryotic cells? What are eukaryotic cells? How are the same and how are they different?

38. Comparing Cells: Prokaryotes to Eukaryotes

41. Plant and Animals Cells What type of cell are plant and animals cells? How are they different?

42. Comparing Cells: Plant to Animal Organelles unique to each PLANTSANIMALS plastids like chloroplastscentrioles cell wall central vacuole

43. Why do cells stay small?

45.  Passive and active transport  Diffusion and Osmosis  Hypo-, hyper-, and iso- tonic solutions  Endocytosis vs Exocytosis

46. What is Passive Transport? Give examples

47. “Passive Transport” Crossing cell membrane using NO energy. EXAMPLES ▫Diffusion ▫Osmosis ▫Facilitated Diffusion ▫Diffusion through ion channels

48. Explain diffusion

49. Diffusion

50. Explain osmosis

51. Osmosis

52. Solutions What is an isotonic solution? What is a hypotonic solution? What is a hypertonic solution? What happens to plant and animals cells in each type of solution?

54. What is Active Transport? Give examples

55. Active Transport Uses energy; against concentration gradient

56. What are endocytosis and exocytosis?

57. Endocytosis

58. Exocytosis

59.  The chemical equation  The role of chlorophyll & accessory pigments  The Light Reaction – roles of reactants and products  The Dark Reaction – roles of reactants and products * The relationship between photosynthesis and cellular respiration*

60. Obtaining Energy What is an autotroph? What is a hetertroph?

61. Obtaining Energy Gets energy directly Gets energy indirectly AUTOTROPHS HETEROTROPHS

62. Visible Spectrum Light can be reflected, transmitted or absorbed by the object Pigments: compounds that absorb light. This subtracts them from the visible spectrum

63. Why are plants green? Why do the leaves of trees change color in the fall?

64. Visible Spectrum Chlorophyll is a pigment ▫Reflects green ▫Absorbs blue and red Carotenoids are accessory pigments ▫Absorb green ▫Enable plants to capture more energy

65. What does this reaction represent?

66. The process of photosynthesis I can describe what is happening during light reactions I can describe what is happening during dark reactions

68.  The chemical equation  The major events of glycolysis  Compare the types of fermentation  Pathways of aerobic respiration  Aerobic vs. anaerobic respiration

71. Fermentation The process which cells release energy (from food molecules) by producing ATP without oxygen Anaerobic Lactic Acid Fermentation Alcoholic Fermentation