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Click on a lesson name to select. Cellular Energy Section 1: How Organisms Obtain Energy Section 2: Photosynthesis Section 3: Cellular Respiration
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Transformation of Energy Energy is the ability to do work. How Organisms Obtain Energy Cellular Energy Thermodynamics is the study of the flow and transformation of energy in the universe. Section 1
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Laws of Thermodynamics First law—energy can be converted from one form to another, but it cannot be created nor destroyed. How Organisms Obtain Energy Cellular Energy Second law—energy cannot be converted without the loss of usable energy. Section 1
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Autotrophs and Heterotrophs Autotrophs are organisms that make their own food. How Organisms Obtain Energy Cellular Energy Heterotrophs are organisms that need to ingest food to obtain energy. Section 1
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Metabolism All of the chemical reactions in a cell How Organisms Obtain Energy Cellular Energy Photosynthesis—light energy from the Sun is converted to chemical energy for use by the cell Cellular respiration—organic molecules are broken down to release energy for use by the cell Section 1
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ATP: The Unit of Cellular Energy ATP releases energy when the bond between the second and third phosphate groups is broken, forming a molecule called adenosine diphosphate (ADP) and a free phosphate group. How Organisms Obtain Energy Cellular Energy Section 1 ATP
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Overview of Photosynthesis Photosynthesis occurs in two phases. Cellular Energy Light-dependent reactions Light-independent reactions – Dark Rxns Photosynthesis Section 2
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Phase One: Light Reactions The absorption of light is the first step in photosynthesis. Cellular Energy Chloroplasts capture light energy. Photosynthesis Section 2
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What’s Going on in a Chloroplast?
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Electron Transport Step 1 Light energy excites electrons in photosystem II and also causes a water molecule to split, releasing an electron into the electron transport system, H + into the thylakoid space, and O 2 as a waste product. Cellular Energy Photosynthesis Section 2
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Step 2 The excited electrons move from photosystem II to an electron-acceptor molecule in the thylakoid membrane. Step 3 The electron-acceptor molecule transfers the electrons along a series of electron-carriers to photosystem I. Cellular Energy Photosynthesis Section 2
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Cellular Energy Photosynthesis Step 4 Photosystem I transfers the electrons to a protein called ferrodoxin. NADPH Step 5 Ferrodoxin transfers the electrons to the electron carrier NADP +, forming the energy-storing molecule NADPH. Section 2
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Metabolic Pathways Catabolic Pathway Releases Energy Breaks Down Molecules Anabolic Pathway Stores (Uses) Energy Makes Molecules
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Light Dependent RXN Long Version Go to 4:50
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Cellular Energy Section 2 Short Version
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Cellular Energy Photosynthesis Phase Two: The Calvin Cycle In the second phase of photosynthesis, called the Calvin cycle, energy is stored in organic molecules such as glucose. Section 2
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Cellular Energy Section 2
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Cellular Energy Photosynthesis Step 1 Six CO 2 molecules combine with six 5- carbon compounds to form twelve 3-carbon molecules called 3-PGA. Step 2 The chemical energy stored in ATP and NADPH is transferred to the 3-PGA molecules to form high-energy molecules called G3P. Section 2
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Cellular Energy Photosynthesis Step 3 Two G3P molecules leave the cycle to be used for the production of glucose and other organic compounds. Step 4 An enzyme called rubisco converts the remaining ten G3P molecules into 5-carbon molecules called RuBP. These molecules combine with new carbon dioxide molecules to continue the cycle. Section 2
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Cellular Energy Photosynthesis Alternative Pathways C 4 plants Fix carbon dioxide into 4 carbon compounds instead of 3. Keep their stomata closed during hot days. Sugar cane and corn CAM plants Crassulacean acid metabolism Only allow CO 2 to enter leaves at night when its cooler and humid Pineapple plant, cacti, orchids Section 2
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Overview of Cellular Respiration Organisms obtain energy in a process called cellular respiration. Cellular Respiration Cellular Energy The equation for cellular respiration is the opposite of the equation for photosynthesis. Section 3
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Cellular Respiration Cellular Energy Cellular respiration occurs in two main parts. Glycolysis Aerobic respiration Section 3
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Glycolysis Glucose is broken down in the cytoplasm through the process of glycolysis. Cellular Respiration Cellular Energy Two molecules of ATP and two molecules of NADH are formed for each molecule of glucose that is broken down. Section 3
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Krebs Cycle Glycolysis has a net result of two ATP and two pyruvate. Cellular Respiration Cellular Energy Most of the energy from the glucose is still contained in the pyruvate. The series of reactions in which pyruvate is broken down into carbon dioxide is called the Krebs cycle. Section 3
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Cellular Respiration Cellular Energy The net yield from the Krebs cycle is six CO 2 molecules, two ATP, eight NADH, and two FADH 2. Section 3
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Cellular Energy Section 3
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Cellular Respiration Cellular Energy Electron Transport Final step in the breakdown of glucose Point at which ATP is produced Produces 24 ATP Section 3
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Cellular Respiration Cellular Energy Anaerobic Respiration The anaerobic pathway that follows glycolysis Two main types Lactic acid fermentation Alcohol fermentation Cellular Respiration Section 3
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Cellular Energy Chapter Resource Menu Chapter Diagnostic Questions Formative Test Questions Chapter Assessment Questions Standardized Test Practice connected.mcgraw-hill.com Glencoe Biology Transparencies Image Bank Vocabulary Animation Click on a hyperlink to view the corresponding feature. Chapter
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1.A 2.B 3.C 4.D CDQ 1 A. Energy cannot be converted or destroyed. B. Energy can be converted and destroyed. C. Energy can be converted but not destroyed. D. Energy can be destroyed but not converted. Which statement describes the law of conservation of energy? Cellular Energy Chapter Diagnostic Questions Chapter
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1.A 2.B 3.C 4.D CDQ 2 Cellular Energy Chapter Diagnostic Questions Chapter A. photosynthesis B. cellular respiration C. homeostasis D. fermentation In which metabolic process are molecules broken down to produce carbon dioxide and water?
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1.A 2.B 3.C 4.D CDQ 3 Cellular Energy Chapter Diagnostic Questions Chapter A. NADPH B. ATP C. chloroplast D. glucose At the end of the Calvin cycle, where is energy stored?
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1.A 2.B FQ 1 Cellular Energy Chapter Which law of thermodynamics explains why the ladybug receives the least amount of usable energy? A. the first law of thermodynamics B. the second law of thermodynamics Section 1 Formative Questions
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1.A 2.B FQ 2 Cellular Energy Chapter Section 1 Formative Questions All of the energy from the food you eat comes from the sun. A. true B. false
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1. A 2. B 3. C 4. D FQ 3 Cellular Energy Chapter Section 1 Formative Questions Why is cellular respiration a catabolic pathway? A.Energy is used to form glucose and oxygen. B.Energy is converted from water to carbon dioxide. C.Energy that is lost is converted to thermal energy. D.Energy is released by the breakdown of molecules.
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1. A 2. B 3. C 4. D FQ 4 Cellular Energy Chapter Section 1 Formative Questions A.It captures light energy from the sun. B.It is produced in anabolic pathways. C.It stores and releases chemical energy. D.It converts mechanical energy to thermal energy. Why is adenosine triphosphate (ATP) such an important biological molecule?
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1. A 2. B 3. C 4. D FQ 5 Cellular Energy Chapter A. chloroplasts B. Golgi apparatus C. mitochondria D. vacuoles Where in the plant cell does photosynthesis take place? Section 2 Formative Questions
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1. A 2. B 3. C FQ 6 Cellular Energy Chapter Section 2 Formative Questions A. 400-500 nm B. 500-600 nm C. 600-700 nm Which range of wavelengths is reflected by chlorophylls a and b?
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1. A 2. B 3. C 4. D FQ 7 Cellular Energy Chapter Section 2 Formative Questions A. absorption B. chemiosmosis C. electron transport D. C 2 pathway Which mechanism of photosynthesis uses the movement of hydrogen ions (H + ) across a concentration gradient to synthesize ATP?
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1. A 2. B 3. C 4. D FQ 8 Cellular Energy Chapter Section 2 Formative Questions A. They accelerate photosynthesis. B. They release more oxygen. C. They help the plant conserve water. D. They reduce the requirement for ATP. How are the C 4 pathway and the CAM pathway an adaptive strategy for some plants?
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1. A 2. B 3. C 4. D FQ 9 Cellular Energy Chapter A. to make ATP B. to process H 2 O C. to store glucose D. to deliver oxygen What is the overall purpose of cellular respiration? Section 3 Formative Questions
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1. A 2. B 3. C 4. D FQ 10 Cellular Energy Chapter Which represents the general sequence of cellular respiration? A.TCA cycle chemiosmosis glycolysis B.glycolysis Krebs cycle electron transport C.electron absorption catalysis phosphorylation D.aerobic pathway anaerobic pathway fermentation Section 3 Formative Questions
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1. A 2. B 3. C FQ 11 Cellular Energy Chapter A. glycolysis B. Krebs cycle C. electron transport Which stage of cellular respiration is the anaerobic process? Section 3 Formative Questions
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1. A 2. B 3. C 4. D FQ 12 Cellular Energy Chapter A. CoA B. CO 2 C. FADH 2 D. NADH Which molecule generated by the Krebs cycle is a waste product? Section 3 Formative Questions
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1. A 2. B 3. C 4. D CAQ 1 Cellular Energy Chapter Look at the following figure. Which part of the chloroplast is a sac-like membrane arranged in stacks? A. grana B. stroma C. thylakoids D. Golgi apparatus Chapter Assessment Questions
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1. A 2. B 3. C 4. D CAQ 2 Cellular Energy Chapter Chapter Assessment Questions During the Krebs cycle, pyruvate is broken down into what compound? A. H 2 O B. O 2 C. CO D. CO 2
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1. A 2. B 3. C 4. D CAQ 3 Cellular Energy Chapter Chapter Assessment Questions Look at the following figure. Which molecule is released when ATP becomes ADP? A. phosphate group B. water molecule C. ribose sugar D. energy cells
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1. A 2. B STP 1 Cellular Energy Chapter Which metabolic process is photosynthesis? A B Standardized Test Practice
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1. A 2. B 3. C 4. D STP 2 Cellular Energy Chapter Standardized Test Practice At the beginning of photosynthesis, which molecule is split to produce oxygen (O 2 ) as a waste product? A. CO 2 B. H 2 O C. C 6 H 12 O 6 D. 3-PGA
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1. A 2. B 3. C 4. D STP 3 Cellular Energy Chapter Standardized Test Practice Which molecule helps provide the energy that drives this cycle? A. 3-PGA B. CO 2 C. NADPH D. rubisco
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1. A 2. B 3. C 4. D STP 4 Cellular Energy Chapter Standardized Test Practice Which product of the Calvin cycle is used for the production of glucose and other organic compounds? A. ADP B. CO 2 C. G3P D. NADP +
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1. A 2. B 3. C 4. D STP 5 Cellular Energy Chapter Standardized Test Practice What is the final step of cellular respiration? A. O 2 and H + form H 2 O. B. Electrons and H 2 O generate ATP. C. C 6 H 12 O6 is broken down into CO 2. D. NADH and FADH 2 gain electrons.
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1. A 2. B 3. C 4. D STP 6 Cellular Energy Chapter Standardized Test Practice What prevents pyruvate from entering the Krebs cycle and instead results in this pathway? A. a buildup of CO 2 B. a lack of oxygen C. an excess of glucose D. an increased demand for ATP
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1. A 2. B 3. C 4. D STP 7 Cellular Energy Chapter Standardized Test Practice Which is not a process that occurs in both cellular respiration and glycolysis? A. chemiosmosis B. electron transport C. glycolysis D. production of G3P
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Cellular Energy Glencoe Biology Transparencies Chapter
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Cellular Energy Image Bank Chapter
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energy thermodynamics metabolism Photosynthesis cellular respiration adenosine triphosphate (ATP) Cellular Energy Section 1 Vocabulary Section 1
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thylakoid granum stroma pigment NADP + Calvin cycle rubisco Cellular Energy Section 2 Vocabulary Section 2
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anaerobic process aerobic respiration aerobic process glycolysis Krebs cycle fermentation Cellular Energy Section 3 Vocabulary Section 3
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Cellular Energy ATP ATP The Calvin Cycle The Calvin Cycle Visualizing Electron Transport Visualizing Electron Transport The Krebs Cycle (Citric Acid Cycle) The Krebs Cycle (Citric Acid Cycle) Animation Chapter
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Cellular Energy Chapter
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Cellular Energy Chapter
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Cellular Energy Chapter
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