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FINAL EXAM - 09 December 2005
... This reaction is coupled to the electron transport system This reaction is coupled to the oxidation of FADH2 to FAD+ This reaction is coupled to the oxidation of NADH + H+ to NAD+ This reaction is coupled to the formation of ATP This reaction is coupled to the reduction of NAD+ to NADH + H+ ...
... This reaction is coupled to the electron transport system This reaction is coupled to the oxidation of FADH2 to FAD+ This reaction is coupled to the oxidation of NADH + H+ to NAD+ This reaction is coupled to the formation of ATP This reaction is coupled to the reduction of NAD+ to NADH + H+ ...
Unit Two “Energy Acquisition”
... Photosynthesis: Stage 2 (exergonic) 3. The electron from water that had its energy used in the Electron Transport System is now directed to another photosystem to be reenergized by the absorption of another photon of light 4. This electron enters another Electron Transport System and is transferred ...
... Photosynthesis: Stage 2 (exergonic) 3. The electron from water that had its energy used in the Electron Transport System is now directed to another photosystem to be reenergized by the absorption of another photon of light 4. This electron enters another Electron Transport System and is transferred ...
Photosynthesis
... sun, by converting light energy into chemical energy in food I can state that Green plants use light energy from the sun to change Carbon Dioxide and water into carbohydrates- glucose and starch; oxygen is produced as a by-product. The process is called Photosynthesis. I can state that the word equa ...
... sun, by converting light energy into chemical energy in food I can state that Green plants use light energy from the sun to change Carbon Dioxide and water into carbohydrates- glucose and starch; oxygen is produced as a by-product. The process is called Photosynthesis. I can state that the word equa ...
Aerobic Cellular Respiration
... • As acetyl-CoA enters the cycle, the CoA is released and can be used for the next pyruvate •During one complete cycle a total of 3 NAD+s and 1 FAD are reduced to form 3 NADHs and 1 FADH2s • During one complete cycle an ADP and Pi are combined to form 1 ATP • During one complete cycle, 2 CO2 molecul ...
... • As acetyl-CoA enters the cycle, the CoA is released and can be used for the next pyruvate •During one complete cycle a total of 3 NAD+s and 1 FAD are reduced to form 3 NADHs and 1 FADH2s • During one complete cycle an ADP and Pi are combined to form 1 ATP • During one complete cycle, 2 CO2 molecul ...
Notes Chapter 6 Photosynthesis
... electrons from one molecule to the next in series. As the electrons pass from molecule to molecule in the electron transport chain, they lose most of the energy that they acquired when they were excited. The energy they lose is harnessed to move protons into the thylakoid to create a concentration g ...
... electrons from one molecule to the next in series. As the electrons pass from molecule to molecule in the electron transport chain, they lose most of the energy that they acquired when they were excited. The energy they lose is harnessed to move protons into the thylakoid to create a concentration g ...
Topic 3.7 and Opt C Cell Respiration
... terms of chemiosmosis • The ETCs basic’s function is to ease the fall of electrons from food to oxygen, breaking a large energy drop into series of small steps. • Chemiosmosis is using H+ ion in the intermembrane space to drive ATP, through the use of an ATP synthase (enzyme). • Collectively ETC and ...
... terms of chemiosmosis • The ETCs basic’s function is to ease the fall of electrons from food to oxygen, breaking a large energy drop into series of small steps. • Chemiosmosis is using H+ ion in the intermembrane space to drive ATP, through the use of an ATP synthase (enzyme). • Collectively ETC and ...
Catabolic Pathways and Glycolysis
... Redox reactions power the production of ATP – Redox Review • Reduction - the gain of negative charge on an atom as it becomes more negative – can occur through transfer of an e- or through unequal sharing of the e– the atom or molecule that donates the charge is the reducing agent – atoms rich in H ...
... Redox reactions power the production of ATP – Redox Review • Reduction - the gain of negative charge on an atom as it becomes more negative – can occur through transfer of an e- or through unequal sharing of the e– the atom or molecule that donates the charge is the reducing agent – atoms rich in H ...
Chem 101 notes review
... The Nucleus: Hund’s Rule states that each orbital will be filled singly Build by adding the required number of protons before pairing begins. The singly filled orbitals will have (the atomic number) and neutrons (the mass of the atom) ...
... The Nucleus: Hund’s Rule states that each orbital will be filled singly Build by adding the required number of protons before pairing begins. The singly filled orbitals will have (the atomic number) and neutrons (the mass of the atom) ...
ENERGY FLOW WITHIN THE CELL (2) LEARNING OBJECTIVES
... Mitochondria is a power house of cell, since it is within this organelles that most of the captured energy derives from respiratory oxidation. The system that couples respiration to the generation of high energy intermediate ATP in mitochondria is called oxidative phosphorylation. ...
... Mitochondria is a power house of cell, since it is within this organelles that most of the captured energy derives from respiratory oxidation. The system that couples respiration to the generation of high energy intermediate ATP in mitochondria is called oxidative phosphorylation. ...
Name Class Date SECTION 6-1 REVIEW THE LIGHT REACTIONS
... _____ 2. The photosystems and electron transport chains are located in the a. outer chloroplast membrane. c. thylakoid membrane. b. inner chloroplast membrane. d. stroma. _____ 3. Both photosystem I and photosystem II a. receive electrons from other c. donate protons to each other. photosystems. b. ...
... _____ 2. The photosystems and electron transport chains are located in the a. outer chloroplast membrane. c. thylakoid membrane. b. inner chloroplast membrane. d. stroma. _____ 3. Both photosystem I and photosystem II a. receive electrons from other c. donate protons to each other. photosystems. b. ...
Photosynthesis - Enter the site
... Carbon Dioxide is needed to produce all large organic molecules. These molecules are used as structures or act as energy stores or sources for all the carbon based life forms on this planet ...
... Carbon Dioxide is needed to produce all large organic molecules. These molecules are used as structures or act as energy stores or sources for all the carbon based life forms on this planet ...
Cellular Respiration Scrambled Steps
... As H+ ions pass back across the mitochondrial membrane through ATP Synthase, molecules of ATP are made. From the Kreb’s cycle, NADH and FADHS enter the electron transport chain. The products are 2 molecules of pyruvic acid (each has 3-carbons). The process that releases energy by breaking down food ...
... As H+ ions pass back across the mitochondrial membrane through ATP Synthase, molecules of ATP are made. From the Kreb’s cycle, NADH and FADHS enter the electron transport chain. The products are 2 molecules of pyruvic acid (each has 3-carbons). The process that releases energy by breaking down food ...
Sample Exam 2 Questions
... 12. The ultimate fate of an oxygen atom that begins the photosynthetic process as part of a water molecule is to A. combine with a free oxygen atom to become oxygen gas. B. reassociate with hydrogen ions to become a new molecule of water. C. reassociate with free carbon and oxygen atoms to become ca ...
... 12. The ultimate fate of an oxygen atom that begins the photosynthetic process as part of a water molecule is to A. combine with a free oxygen atom to become oxygen gas. B. reassociate with hydrogen ions to become a new molecule of water. C. reassociate with free carbon and oxygen atoms to become ca ...
Week 4:
... Stroma filling the space outside of the grana. Light reactions can be divided into 2 “photosystems”: “Water splitting” and “NADPH producing”. These two photosystems both take in light energy, one produces ATP via electron transport chain, the other produces NADPH. These products are both used in the ...
... Stroma filling the space outside of the grana. Light reactions can be divided into 2 “photosystems”: “Water splitting” and “NADPH producing”. These two photosystems both take in light energy, one produces ATP via electron transport chain, the other produces NADPH. These products are both used in the ...
10 - GEOCITIES.ws
... a. Action spectrum peaks are broader b. Resembles totaled absorption for chlorophylls a and b and carotenoids c. Other pigments transfer energy to chlorophyll a 12. List the wavelengths of light that are most effective for photosynthesis. a. Action spectrum has peaks at 420 and 680 nm b. Chlorophyll ...
... a. Action spectrum peaks are broader b. Resembles totaled absorption for chlorophylls a and b and carotenoids c. Other pigments transfer energy to chlorophyll a 12. List the wavelengths of light that are most effective for photosynthesis. a. Action spectrum has peaks at 420 and 680 nm b. Chlorophyll ...
ChemicalBondingTestAnswers
... Dispersion forces are referred to as Vander Waals forces. 10. Substance IV is most likely to be an ionic compound as – it is solid in pure state, is highly soluble in water and has high solution conductivity. 11. HF and NH3 12. There are thousands of compounds that are uncommon or have multiple name ...
... Dispersion forces are referred to as Vander Waals forces. 10. Substance IV is most likely to be an ionic compound as – it is solid in pure state, is highly soluble in water and has high solution conductivity. 11. HF and NH3 12. There are thousands of compounds that are uncommon or have multiple name ...
Answers to exam 1 review #2
... 45. Are glucose and fructose a structural or steroisomer? Structural 46. Hydrophobic forces cause which protein structure? Tertiary structure 47. The two types of electron microscopes are TSM and SEM? F 48. Myosin is a molecular motor moving along an actin filament T F 49. What does cholesterol do t ...
... 45. Are glucose and fructose a structural or steroisomer? Structural 46. Hydrophobic forces cause which protein structure? Tertiary structure 47. The two types of electron microscopes are TSM and SEM? F 48. Myosin is a molecular motor moving along an actin filament T F 49. What does cholesterol do t ...
Photosynthesis - THESTUDENTSCHOOL
... along • Protein complex B6-F uses this energy to pump hydrogen ions from stroma into the thylakoid space creating a proton gradient to aid in ATP creation ...
... along • Protein complex B6-F uses this energy to pump hydrogen ions from stroma into the thylakoid space creating a proton gradient to aid in ATP creation ...
Bio 20 photo notes
... http://www.stolaf.edu/people/giannini/flashanima t/metabolism/photosynthesis.swf ...
... http://www.stolaf.edu/people/giannini/flashanima t/metabolism/photosynthesis.swf ...