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Photosynthesis Jeopardy. Vocabulary. Molecular Structures. The equation. Obtaining Energy. Potpourri. Q $100. Q $100. Q $100. Q $100. Q $100. Q $200. Q $200. Q $200. Q $200. Q $200. Q $300. Q $300. Q $300. Q $300. Q $300. Q $400. Q $400. Q $400. Q $400. Q $400. Q $500.
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Photosynthesis Jeopardy Vocabulary Molecular Structures The equation Obtaining Energy Potpourri Q $100 Q $100 Q $100 Q $100 Q $100 Q $200 Q $200 Q $200 Q $200 Q $200 Q $300 Q $300 Q $300 Q $300 Q $300 Q $400 Q $400 Q $400 Q $400 Q $400 Q $500 Q $500 Q $500 Q $500 Q $500 Final Jeopardy
$100 Question from Life is Cellular • Which of the following is an autotroph? • mushroom • monkey • dog • tree
$100 Answer from Vocabulary D- tree
$200 Question from Vocabulary Which of the following is NOT an example of a heterotroph? a. mushroom c. grass b. leopard d. human
$200 Answer from Vocabulary c. Grass
$300 Question from Vocabulary A granum is a(an) a. stack of chloroplasts. b. membrane enclosing a thylakoid. c. stack of thylakoids. d. photosynthetic pigment molecule.
$300 Answer from Vocabulary c. stack of thylakoids.
$400 Question from Vocabulary The light-collecting units of a chloroplast are the a. electron carriers. b. stroma. c. photosystems. d. high-energy sugars.
$400 Answer from Vocabulary c. photosystems.
$500 Question from Vocabulary The stroma is the space that surrounds a. thylakoids. c. plant cells. b. chloroplasts. d. all of the above
$500 Answer from Vocabulary a. thylakoids.
$100 Question from Molecular Structures Which of the following is NOT a part of an ATP molecule? a. adenine c. chlorophyll b. ribose d. phosphate
$100 Answer from Molecular Structures c. chlorophyll
$200 Question from Molecular Structures In Figure 8-1, between which parts of the molecule must the bonds be broken to form an ADP molecule? a. A and B c. C and D b. B and C d. all of the above
$200 Answer from Molecular Structures c. C and D
$300 Question from Molecular Structures Which structures shown in Figure 8-1 make up an ATP molecule? a. A and B b. A, B, C, and D c. A, B, and C d. C and D
$300 Answer from Molecular Structures b. A, B, C, and D
$400 Question from Molecular Structures Look at Figure 8-1. All of the following are parts of an ADP molecule EXCEPT a. structure A. c. structure C. b. structure B. d. structure D.
$400 Answer from Molecular Structures d. Structure D
$500 Question from Molecular Structures Energy is released from ATP when a. a phosphate group is added. b. ATP is exposed to sunlight. c. adenine bonds to ribose. d. a phosphate group is removed. .
$500 Answer from Molecular Structures d. a phosphate group is removed.
$100 Question from The Equation Which of the following are used in the overall reactions for photosynthesis? a. carbon dioxide c. light b. water d. all of the above .
$100 Answer from The Equation • d. all of the above
$200 Question from The Equation Most plants appear green because chlorophyll a. does not absorb green light. b. absorbs green light. c. reflects violet light. d. none of the above
$200 Answer from The Equation a. does not absorb green light.
$300 Question from The Equation What are the products of the light-dependent reactions? a. oxygen gas c. NADPH b. ATP d. all of the above
$300 Answer from The Equation d. all of the above
$400 Question from The Equation • Which step is the beginning of photosynthesis? • b. Pigments in photosystem II absorb light. • High-energy electrons move through the • electron transport chain. • ATP synthase allows H+ ions to pass • through the thylakoid membrane.
$400 Answer from The Equation b. Pigments in photosystem II absorb light.
$500 Question from The Equation The Calvin cycle takes place in the a. stroma. b. thylakoid membranes c. photosystems. d. chlorophyll molecules.
$500 Answer from The Equation a. stroma.
$100 Question from Obtaining Energy Which scientists showed that plants need light to grow? a. van Helmont and Calvin b. van Helmont and Priestley c. Priestley and Ingenhousz d. Priestley and Calvin
$100 Answer from Obtaining Energy c. Priestley and Ingenhousz
$200 Question from Obtaining Energy • If carbon dioxide is removed from • a plant’s environment, what would • you expect to happen to its production • of high-energy sugars? • a. More sugars will be produced. • b. No sugars will be produced. • The same number of sugars will be produced • but without carbon dioxide. • Carbon dioxide does not affect the production of • high-energy sugars in plants.
$200 Answer from Obtaining Energy b. No sugars will be produced.
$300 Question from Obtaining Energy If you continue to increase the intensity of light that a plant receives, what happens? a. The rate of photosynthesis increases with light intensity. b. The rate of photosynthesis decreases with light intensity. c. The rate of photosynthesis increases and then levels off. d. The rate of photosynthesis does not change.
$300 Answer from Obtaining Energy • The rate of photosynthesis • increases and then levels off.
$400 Question from Obtaining Energy Photosynthesis uses sunlight to convert water and carbon dioxide into a. oxygen. b. ATP and oxygen. c. high-energy sugars. d. oxygen and high-energy sugars.
$400 Answer from Obtaining Energy d. oxygen and high-energy sugars.
$500 Question from Obtaining Energy Plants gather the sun’s energy with light-absorbing molecules called a. pigments. c. chloroplasts. b. thylakoids. d. glucose.
$500 Answer from Obtaining Energy a. pigments.
$100 Question from Potpourri van Helmont concluded that plants gain most of their mass from a. water. c. carbon dioxide in the air. b. the soil. d. oxygen in the air.
$100 Answer from Potpourri A. a. water.
$200 Question from Potpourri Ingenhousz showed that plants produce oxygen only when exposed to a. ATP. c. light. b. carbon dioxide. d. a burning candle
$200 Answer from Potpourri c. light.
$300 Question from Potpourri Plants take in the sun’s energy by absorbing a. high-energy sugars. b. chlorophyll b. c. chlorophyll a. d. sunlight.
$300 Answer from Potpourri d. sunlight.
$400 Question from Potpourri Organisms that cannot make their own food and must obtain energy from the foods they eat are called a. autotrophs. c. thylakoids. b. heterotrophs. d. plants.
$400 Answer from Potpourri b. heterotrophs.
$500 Question from Potpourri Organisms, such as plants, that make their own food are called a. autotrophs. c. thylakoids. b. heterotrophs. d. pigments.