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Biology Chapter 6 Study Guide Name:______________________ Class:_____________________ Date:________________ Chapter 6: Photosynthesis Study Guide Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. ____ ____ ____ ____ ____ ____ ____ ____ ____ 1. Energy ATP, also known as the currency of Life, is required for a variety of life processes including a. growth and reproduction. b. movement. c. transport of certain materials across cell membranes. d. All of the above 2. Heterotrophs are organisms that can a. produce food from inorganic molecules and sunlight. b. survive without energy. c. consume other organisms for energy. d. carry out either photosynthesis or chemosynthesis. 3. Based on the cycle of photosynthesis and cellular respiration, one can say that the ultimate original source of energy for all living things on Earth is a. glucose. c. the sun. b. water. d. carbon dioxide. 4. The process whereby plants capture energy and make complex molecules is known as a. homeostasis. c. photosynthesis. b. evolution. d. development. 5. Suspended in the fluid stroma of chloroplasts are a. organelles called eukaryotes. b. numerous mitochondrial membranes. c. small coins that provide energy. d. stacks of thylakoids called grana. 6. photosynthesis is to oxygen as _________ is to ____________. a. respiration : darkness b. light reactions : dark reactions c. respiration : carbon dioxide d. oxygen : carbon dioxide 7. light reactions is to thylakoids as ___________ is to _______________. a. grana : thylakoids b. grana : ATP c. Calvin cycle : stroma d. stroma : grana of chloroplast 8. The sun is considered the ultimate source of energy for life on Earth because a. all organisms carry out photosynthesis. b. all organisms carry out cellular respiration. c. either photosynthetic organisms or organisms that have eaten them provide energy for all other organisms on Earth. d. the sun heats Earth’s atmosphere. 9. The energy from the sun is converted into chemical energy in the form of organic compounds in a series of linked chemical reactions called a a. photosynthetic reactant. 1 Biology ____ 10. ____ 11. ____ 12. ____ 13. ____ 14. ____ 15. ____ 16. ____ 17. ____ 18. ____ 19. Chapter 6 Study Guide b. ATP generator. c. chemical equation. d. biochemical pathway. The role of chlorophyll in photosynthesis is to a. absorb light energy. b. pass electrons to carotenoids. c. split water molecules. d. All of the above When light strikes an object, the light may be a. reflected. c. transmitted. b. absorbed. d. All of the above Chlorophyll is green because a. it absorbs green wavelengths of light. b. it absorbs blue and yellow wavelengths, which make green. c. it reflects green wavelengths of light. d. it transmits light and causes an optical illusion. What happens when a chlorophyll molecule absorbs light? a. Some of its electrons are raised to a higher energy level. b. It disintegrates, giving off huge amounts of heat. c. It glows, radiating green light and giving the plant a green appearance. d. It attracts electrons from other molecules. chloroplast is to grana, as _____________ is to ____________. a. photosystem : pigment molecules b. chlorophyll : pigments c. thylakoids : photosynthesis d. chlorophyll : green When electrons of a chlorophyll molecule are raised to a higher energy level, a. they become a particle of light. b. they form a glucose bond. c. they enter an electron transport chain. d. they enter the Calvin cycle. NADP+ is important in photosynthesis because it a. It breaks Carbon Dioxide to form Oxygen atoms. b. is needed to form chlorophyll a, so that photosynthesis can occur in the future. c. provides additional oxygen atoms, needed in later Calvin Cycle. d. provides protons and electrons for some reactions and stores energized electrons produced during light reactions The electrons lost in photosystem I a. are eventually replaced by electrons from photosystem II. b. attach to water molecules during the light reaction. c. are at the end of the electron transport chain. d. are absorbed by oxygen molecules to form water. The breaking of __________ molecules is the eventual source of oxygen produced during photosynthesis. a. carbon dioxide. c. chlorophyll. b. water. d. glucose. The major atmospheric byproduct of photosynthesis is a. nitrogen. c. water. b. carbon dioxide. d. oxygen. 2 Biology Chapter 6 Study Guide ____ 20. Which of the following processes occurs in the thylakoid membrane and converts captured light energy into chemical energy? a. the Calvin cycle c. light absorption b. ATP synthase d. chemiosmosis ____ 21. Chemiosmosis in the thylakoid membrane is directly responsible for a. adding protons to NADP+. b. providing the energy to produce ATP molecules. c. producing ATP-synthetase. d. generating glucose molecules. ____ 22. Products of the light reactions of photosynthesis that provide energy for the Calvin cycle are a. oxygen and ATP. c. ATP and NADPH. b. water and oxygen. d. oxygen and NADPH. ____ 23. The Calvin cycle of photosynthesis a. requires ATP and NADPH. b. can occur in both light and dark conditions. c. generates glucose. d. All of the above ____ 24. The energy used in the Calvin cycle for the production of carbohydrate molecules comes from a. ATP made during cellular respiration. b. the Krebs cycle. c. ATP made in the light reactions of photosynthesis. d. CO2 absorbed during the last stage of photosynthesis. ____ 25. C3, C4, and CAM plants differ from each other in that a. C3 plants use the Calvin cycle for carbon fixation and C4 and CAM plants use different pathways for carbon fixation. b. C3 plants have their stomata open during the day and C4 and CAM plants have their stomata open only at night. c. C3 and C4 plants have their stomata open during the day and CAM plants have their stomata open only at night. d. C3 plants use CO2 to form organic compounds and C4 and CAM plants use other sources of carbon. ____ 26. Refer to the illustration above. Graph 1 demonstrates that the rate of photosynthesis a. decreases in response to increasing light intensity. b. increases indefinitely in response to increasing light intensity. c. increases in response to increasing light intensity, but only to maximum absorption point.. 3 Biology Chapter 6 Study Guide d. is unaffected by changes in light intensity. ____ 27. Refer to the illustration above. Taken together, these graphs demonstrate that a. photosynthesis is independent of environmental influences. b. increases in light intensity cause increases in temperature. c. as the rate of photosynthesis increases, the temperature of the plant eventually decreases. d. the rate of photosynthesis is affected by changes in the plant’s environment. ____ 28. Yellow and orange plant pigments are known as which of the following? a. Chlorophyll c. Electron transport chains b. Carotenoids d. Thylakoids ____ 29. The rate of photosynthesis decreases as the a. Oxygen concentration decreases c. Carbon dioxide concentration decreases b. Light intensity increases d. All of the above ____ 30. In the first stage of photosynthesis, hydrogen ions are pumped a. Out of the chloroplast c. Into the thylakoids b. Into a photosystem d. Both (a) and (b) ____ 31. Products of the Calvin cycle are a. Three-carbon sugars c. Used to produce organic compounds b. Used to regenerate the initial five- d. All of the Above carbon compound ____ 32. Chlorophyll a a. Absorbs mostly orange-red and blue- c. Absorbs mostly green light violet light b. is an accessory pigment d. is responsible for red color of many autumn leaves ____ 33. The photosystems and electron transport chains are located in the a. outer chloroplast membrane. c. thylakoid membrane. b. inner chloroplast membrane. d. stroma ____ 34. Both photosystem I and photosystem II a. receive electrons from other c. donate electrons to a transport chain photosystems. b. contain chlorophyll a molecules. that generates NADPH. d. donate protons to each other. ____ 35. Water participates directly in the light reactions of photosynthesis by a. donating electrons to NADPH. c. accepting electrons from the electron transport chains 4 Biology Chapter 6 b. donating electrons to photosystem II. d. accepting electrons from ADP Study Guide ____ 36. The energy that is used to establish the proton gradient across the thylakoid membrane comes from the a. synthesis of ATP. c. synthesis of NADPH. b. passage of electrons along the electron d. splitting of water transport chain of photosystem II. ____ 37. The Calvin cycle begins when CO2 combines with a five-carbon carbohydrate called a. RuBP c. 3-G3P PGA b. d. NADPH ____ 38. Organic compounds that can be made from the products of the Calvin cycle include a. only carbohydrates. c. only lipids. only amino acids. b. d. carbohydrates, amino acids, and lipids ____ 39. C3 and C4 plants differ in terms of the number of a. steps in the Calvin cycle. c. times the stomata open and close during a cycle. b. carbon atoms in the compound that d. ATP molecules used in the Calvin cycle. CO2 is initially incorporated into. ____ 40. As light intensity increases, the rate of photosynthesis a. continues to decrease. c. initially decreases and then levels off b. continues to increase. d. initially increases and then levels off. ____ 41. ____ 42. ____ 43. Which of these equations best summarizes photosynthesis? a. C6H12O6 + 6 O2 —> 6 CO2 + 12 H2O d. 6 CO2 + 6 H2O —> C6H12O6 + 6 O2 b. 6 CO2 + 6 O2 —> C6H12O6 + 6 H2O c. C6H12O6 + 6 O2 —> 6 CO2 + 6 H2O + Energy e. H2O —> 2 H+ + 1/2 O2 + 2e- The light reactions of photosynthesis use _____ and produce _____. a. NADPH ... NADP+ d. carbon dioxide ... sugar b. carbon dioxide ... oxygen e. NADPH ... oxygen c. water ... NADPH _____ has a longer wavelength than _____. (Left to Right) violtet_purple_blue_green_yellow_orange_red ____ 44. a. Red ... green d. Green ... yellow b. Yellow ... red e. Blue ... green c. Violet ... blue Carbon fixation involves the addition of carbon dioxide to _____. a. rubisco d. RuBP 5 Biology b. G3P c. NADPH Chapter 6 e. Study Guide 3-PGA ____ 45. In C3 plants the conservation of water promotes _____. a. photorespiration d. the opening of stomata b. a shift to C4 photosynthesis e. photosynthesis c. the light reactions ____ 46. ____ 47. In C4 and CAM plants carbon dioxide is fixed in the _____ of mesophyll cells. a. stoma d. stroma b. thylakoids e. grana c. cytoplasm C4 plants differ from C3 and CAM plants in that C4 plants _____. a. open their stomata only at night d. are better adapted to wet conditions b. transfer fixed carbon dioxide to cells in which the Calvin cycle occurs e. use malic acid to transfer carbon dioxide to the Calvin cycle c. use PEP carboxylase to fix carbon dioxide ____ 48. The production of ATP during phtosynthesis requires a. energy released when protons move down c. energy from electrons passing through their concentration gradient electron transport chains b. ATP synthase to catalyze the addition of a d. All of the above phosphate group to a molecule of ADP ____ 49. Protons are moved into the thylakoid using energy from a. ATP c. electrons in the transport chain b. NADPH d. the sun’s heat Completion Complete each sentence or statement. 50. Stacks of thylakoids, called ____________________, are suspended in the stroma of chloroplasts. 51. A photosynthetic pigment that absorbs primarily red and blue wavelengths of light and appears green is called ____________________, while pigments that absorb other wavelengths and appear yellow and orange are called ____________________. 52. Organisms that harvest energy from either sunlight or chemicals in order to make food molecules are called ____________________. 53. The main pigment associated with the two photosystems is ____________________. 54. The abundance of oxygen in Earth’s atmosphere is a result of millions of years of ____________________. 55. Chemiosmosis in the thylakoid membrane results in the synthesis of ____________________. 6 Biology Chapter 6 Study Guide 56. The second stage of photosynthesis, in which glucose is manufactured, is called the ____________________. 57. ____________________ plants have an enzyme that can fix CO2 into four-carbon compounds. 58. During photosynthesis, oxygen gas is produced when water molecules are split to provide replacement_______________________ for photosystem II. Problem 59. Refer to the illustration above. Amy wants to test the hypothesis that the rate of photosynthesis is directly related to the light level to which plants are exposed. She has chosen the aquatic plant Elodea as her study organism. In her experimental design, she has four different tanks in which she will place Elodea plants. Each Elodea plant will be placed inside an inverted test tube. She plans to estimate the relative rate of photosynthesis by measuring the amount of oxygen produced by plants placed under different light levels. She plans to compare the amount of oxygen gas that collects in the top of each of the test tubes. Amy plans to place tank 3 next to a window in the classroom. She plans to place tank 2 ten feet away from the window. She plans to place tank 1 twenty feet away from the window. She plans to place tank 4 in the classroom’s refrigerator, because it is the only place she can find that is dark. Write your answers to the following in the spaces below. a. What is wrong with the design of Amy’s experiment? b. What could Amy change in her experimental design to make it a better experiment? 7 Biology Chapter 6 Study Guide 60. 61. 8 Biology Chapter 6 Study Guide 62.Label the Parts of this Plant Cell A.____________ B._______________ C.______________ D._______________ E.________________ 63.Label the Parts of this Chloroplast A.______________ B._____________ C.______________ D.__________________ E._____________ Where Does the Calvin Cycle Occur?___________________. 64.Use this Graph representing the Light Reactions inside the Thylakoid to answer the next Five Questions: 9 Biology Chapter 6 Study Guide I. Which of these phosphorylates ADP to make ATP? __________. II. __________ releases energy that is used to pump hydrogen ions from the stroma into the thylakoid compartment. III. _________ splits water into Oxygen (O2), a Proton (H+), and an Electron (e-). IV. Energized electrons from ___________ enter an electron transport chain and are then used to reduce NADP +. V. Chlorophyll can be found in _____________ and ___________. 10 Biology Chapter 6 Study Guide 65. Extended Response 66. Why do the cells of plant roots generally lack chloroplasts? Write your answer in the space below. 67. Define the terms autotroph and heterotroph. What types of organisms belong in each of these categories? Write your answer in the space below. 68. Explain why the leaves of plants appear green to the human eye. Write your answer in the space below. 69. Summarize how the light reactions and the Calvin cycle work together to create the continuous cycle of photosynthesis. Matching a. Stage 1 of photosynthesis b. Stage 2 of photosynthesis ____ 70. Light Energy is stored as ATP and NADPH 11 Biology Chapter 6 Study Guide ____ 71. Organic compounds are formed using carbon dioxide ____ 72. Calvin Cycle ____ 73. Excited electrons are passed along an electron transport chain ____ 74. Pigment molecules absorb energy ____ 75. Water is split Short Answer 76. Why is photosynthesis referred to as a biochemical pathway? 77. How does the structure of a chloroplast enable it to build up a concentration gradient of protons? 78. What are the energy-carrying end products of the light harvesting reactions? 79. Explain the function of accessory pigments. 80. Which photosystem—I or II—most likely evolved first? Explain your reasoning. 81. Using (CH2O) as the general formula for a carbohydrate, write the simplest overall equation for photosynthesis. 82. How do CAM plants differ from both C3 and C4 plants? 83. Why does the rate of photosynthesis increase, peak, and then decrease as temperature increases? 84. Stomata can open and close in response to changes in the CO2 concentration inside the leaf. Would you expect stomata to open or close if the CO 2 concentration decreased? Explain. 85. Does increasing the temperature always increase the rate of photosynthesis? Explain. 86. Where does the energy used in the Calvin Cycle come from? 87. How is ATP formed in photosynthesis? 12 Biology Chapter 6 Study Guide 13