The production of the light-dependent reactions [{Blank}]are used in the light dependent reaction...
Question:
The production of the light-dependent reactions _____are used in the light dependent reaction
A. Carbon dioxide
B. ATP and NADPH
C. glucose
D. sunlight
Photosynthesis:
Photosynthesis is divided up between light dependent reactions which occur in the thylakoid membrane, and light independent reactions which occur in the stroma of the chloroplast. These two reactions are necessary to complete photosynthesis.
Answer and Explanation:
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Photosynthesis Lesson for Kids: Process & Steps
from
Chapter 5 / Lesson 3
33K
Photosynthesis is the process by which plants make their own food. Learn about photosynthesis and how it works, and discover the three ingredients that plants need to make their own food.
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- Light-dependent photosynthetic reactions produce: a. Glucose, ATP, O 2 b. ATP, NADPH, H 2 O c. ATP, NADPH, CO 2 d. Glucose, ATP, CO 2 e. ATP, NADPH, O 2
- The light reactions of photosynthesis yield three products. They are: a. O_2, NADPH, and ATP. b. CO_2, NADP^+, and ATP. c. O_2, NADP^+, and ATP. d. H_2O, NADPH, and ATP.
- Which one of these occurs during the light reactions of photosynthesis? a. carbon dioxide fixation b. g3P production c. NADPH production d. reduction in carbon dioxide
- Which of the following is not produced in the light-dependent reactions of photosynthesis? A. NADPH B. sugars C. ATP D. oxygen
- What are the products of the light-dependent reactions? A. ATP, carbon dioxide gas, and NADPH. B, ATP, NADPH, and oxygen gas. C. Oxygen gas and glucose. D. Carbon dioxide gas, oxygen gas, and NADPH.
- During the light-dependent reactions of photosynthesis,: a. carbon dioxide is split into oxygen, carbon, electrons, and protons b. NADP+is reduced to NADPH c. enough ATP molecules are synthesized to power all other cellular functions d. electrons pass thr
- ATP and NADPH are crucial to photosynthesis occurring because: a. they provide the energy for the light-dependent reactions to occur b. they provide the energy to power the Calvin Cycle c. they are used to breakdown glucose d. they increase the rate of
- The light independent reactions are important because they \\ A.make ATP and NADPH \\ B.convert CO2 into glucose \\ C.split H2O to harvest electrons \\ D.release O2
- The set of reactions that used NADPH and ATP formed in the light-capturing reactions to drive into the fixation of CO 2 a.) autotrophs b.) Calvin Cycle c.) carotenoids d.) chlorophyll e.) heterotrophs f.) NADP+/NADPH g.) photons h.) photosystem i
- What are the products of the light-dependent reactions? A. ATP, NADPH, and oxygen gas B. ATP, carbon dioxide gas, and NADPH C. carbon dioxide gas, oxygen gas, and NADPH D. oxygen gas and glucose
- The light-dependent reactions of photosynthesis: a. do not really require light energy to occur. b. use ATP and NADPH to produce glucose. c. require the Calvin cycle. d. take place in the thylakoid membranes of the chloroplast.
- Energy for the Calvin cycle is supplied by from the light reactions. a. carbon dioxide and water b. ATP and NADPH c. carbon dioxide and ATP d. ATP and water e. electrons and hydrogen ions
- The primary function of the light dependent reactions of photosynthesis is to a. produce carbon dioxide b. use ATP to make glucose c. convert light energy to glucose d. produce energy rich ATP and NADPH e. produce energy rich glucose from carbon dioxide a
- If the energy source for the light-dependent reaction of photosynthesis is sunlight, what energy is needed to fuel the carbon fixation reaction? a. ADP b. sunlight c. C o 2 d. ATP and NADPH e. ATP synthase
- The light-harvesting reactions of photosynthesis: a. use H2O as the initial electron donor. b. occur in the stroma in the chloroplasts. c. utilize the ATP and NADPH produced by the CO2-fixation reactions. d. all of the above e. a and b, but not c
- The products of the light reactions that are then used by the Calvin cycle are: a. ATP only b. ADP and NADP+ c. ATP and O2 d. O2 and NADH e. ATP and NADPH
- The light reactions act much like a battery to power the reactions of the Calvin cycle. This energy is stored as: a. ADP + Pi and NADP+ b. ATP and NADPH c. NADPH and NADP+ d. ADP + Pi e. ATP and NADP+
- What is a reaction of photosynthesis that requires light called? Light energy is absorbed and converted to chemical energy in the form of ATP and NADPH.
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- Which of the following are reactants of the light reactions of photosynthesis? A. Glucose B. Water C. ATP D. NADP E. Light energy F. NADPH G. Carbon dioxide H. Oxygen
- Fill in the blank: In the light-dependent reactions of photosynthesis, NADP^+ gets its electrons to become NADPH from.
- During what stage of photosynthesis are ATP and NADPH converted to ADP + Pi and NADP+? a. the light-dependent reactions b. the light-independent reactions c. both of the above d. none of the above
- Fill in the blank. Light-dependent reactions build NADPH and oxygen by _________.
- During photosynthesis, A. light reactions produce sugar, while the Calvin cycle produces O2. B. light reactions produce NADPH and ATP, while the Calvin cycle produces sugar. C. light reactions photophosphorylate ADP, while the Calvin cycle produces ATP.
- What are the major products of the light-dependent reactions? a. G3P, O2 b. H2O, ATP, NADPH c. Glucose, H2O d. ATP, NADPH, O2
- Which of the following are products of the dark (light independent, Calvin cycle) reactions of photosynthesis? A. Glucose B. Water C. ATP D. NADP E. Light energy F. NADPH G. Carbon dioxide H. Oxygen
- The reactions of photosynthesis can be grouped into either the light-dependent reactions or the light-independent reactions. Which of the following is a correct statement? The light-dependent reactions produce ATP and NADPH which the light-independent re
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- Which of the following are products of the light reactions of photosynthesis? A. Glucose B. Water C. ATP D. NADP E. Light energy F. NADPH G. Carbon dioxide H. Oxygen
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- The electrons that are excited by light energy in photosystems II and I are eventually used to: a. breakdown RuBP b. convert glucose to carbon dioxide c. breakdown starch into glucose d. reduce NADP+ to NADPH
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- In Photosynthesis, where do the carbon atoms in glucose come from? a.carbon dioxide b.water c.NADPH d.sunlight
- What are the products of the light reactions that are subsequently used by the Calvin cycle? a. oxygen and carbon dioxide b. carbon dioxide and RuBP c. water and carbon d. electrons and photons e. ATP and NADPH
- The Calvin cycle is another name for the: A. light-independent reactions B. light-dependent reactions C. electron transport chain D. photosynthesis reaction
- The Calvin cycle is another name for the A. light-dependent reactions. B. light-independent reactions. C. electron transport chain. D. photosynthesis reaction.
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- Which of the following are produced in the dark reactions? a. ATP, NADPH, Oxygen, G3P b. ATP, NADPH, Glucose, Oxygen c. ADP, NADP+, G3P d. ADP, NADP+, G3P, Carbon dioxide e. ADP, NADP+, G3P, Oxygen
- What happens in the light reactions of photosynthesis? How are ATP and NADPH produced?
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- The light reactions occur in the [{Blank}] with [{Blank}] as a reactant. a. thylakoid membrane; water b. stroma; oxygen c. chlorophyll; carbon dioxide d. chloroplasts; glucose
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- PGAL molecules are formed from the reaction of PGA molecules with ATP and NADPH in this pathway. a. light-dependent reactions b. CAM pathway c. carbon dioxide fixation d. Calvin-Benson cycle e. C4 pathway
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- In these photosynthetic reactions light energy is used to generate ATP and NADH.
- The output of the Calvin cycle that is used to generate carbohydrates is a. NADPH. b. CO2. c. G3P. d. RuBP.
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- In which reaction is molecular oxygen (O_2) produced? \\ The Calvin cycle \\ In both the light dependent reaction and the Calvin cycle \\ The Citric Acid Cycle \\ The light dependent reaction
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- Describe how ATP and NADPH are produced during the light-capturing reactions of photosynthesis.
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- What is NOT a byproduct of the light dependent reaction in photosynthesis? A) Adenosine triphosphate B) nicotinamide adenine dinucleotide (NAD) + hydrogen (H) C) FADPH D) \mathrm O_{2} E) More than one of the above(which ones)
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- During photosynthesis, oxygen is generated by the a. light reactions. b. Calvin cycle. c. light reactions and the Calvin cycle reactions. d. closing of stomata.
- Photosystem I and photosystem II take place during which part of photosynthesis? a. light-dependent reaction b. carbon fixation reaction c. CAM pathway d. Calvin cycle e. oxidative phosphorylation
- In Photosynthesis, What is the light reaction stage,The dark reaction (Calvin Cycle) stage?
- Which of the following does not occur during the light-dependent reactions of photosynthesis? a. ATP synthesis b. Oxidation of water c. Carbon fixation d. Electron transport
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- NADPH is formed when: a. it accepts high-energy electrons from an excited photosystem b. 2 molecules of ATP combine c. it can transfer electrons to a free quinone molecule d. electrons are absorbed by an oxygen molecule e. ATP is converted to ADP plus a f
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- What are light-dependent reactions in photosynthesis?
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- Where do the light-dependent reactions take place? A. within the mitochondria membranes B. within the thylakoid membranes C. in the cell membrane of the chloroplasts D. in the stroma of the chloroplast
- The light reactions of photosynthesis occur in: A. all membranes of the chloroplast. B. the stroma. C. the matrix. D. the tonoplast membrane. E. thylakoid membranes.
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- How are ATP, ADP, NADP+, and NADPH cycle in photosynthesis?
- Which of the following does not occur during the light independent process? CO_2 is used to form (a) Carbohydrates (b) NADPH converts to NADP (c) ADP converts to ATP (d) ATP converts to ADP.
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- Choose the stage of the light reactions in which the following process occurs. Produces ATP a. water-splitting photosystem b. NADPH-producing photosystem
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- In the Calvin cycle, where does the carbon come from to form glucose? a. from water b. from chlorophyll c. from ATP and NADPH d. from atmospheric CO 2 e. from enzymes
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- What is the role of NADP+ in photosynthesis? a) It forms NADPH to be used in the Calvin cycle. b) It forms part of photosystem II. c) It helps produce ATP from light reactions. d) It absorbs light energy. e) It is the primary electron acceptor.
- Plants perform cellular respiration to produce: a. ATP. b. NADPH. c. Sugar. d. Oxygen.
- Given that plants produce ATP and NADPH from photophosphorylation, for what purposes do they reduce CO2 to triose phosphate? a. At night, plants need the ATP produced by glycolysis and oxidative phosphorylation in the dark. b. Plants need triose phospha
- Explain how the light reactions generate ATP and NADPH.
- Photosynthesis is the process where energy is collected and ______ is released. (a) carbon dioxide (b) glucose (c) oxygen (d) chloroplast.
- The Calvin Cycle results in the production of glyceraldehyde 3-phosphate from CO2. Where does the energy required for this process come from? A. ATP and NADPH produced by mitochondrial oxidative phosphorylation B. ATP and NADPH produced by photosynthe
- The primary purpose of splitting the water in the light-dependent reactions of photosynthesis is to A. generate ATP B. generate NADH C. release oxygen for aerobic respiration D. release electrons for electron transport chain to make ATP and NADPH
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