Plant Metabolism
... If a plant does not have enough water, it may limit photosynthetic activity Visible light is used in photosynthesis Violet-blue and red-orange mostly used. What is left out? ...
... If a plant does not have enough water, it may limit photosynthetic activity Visible light is used in photosynthesis Violet-blue and red-orange mostly used. What is left out? ...
Photosynthesis and Cellular Respiration Review
... 15. Is the phosphorylation reaction in the Krebs cycle substrate level or oxidative? 16. How is FADH2 similar to the NADH produced during glycolysis? 17. How is the structure of the mitochondrion suited to its function? 18. As electrons are passed along the ETC they lose energy. Where does this ener ...
... 15. Is the phosphorylation reaction in the Krebs cycle substrate level or oxidative? 16. How is FADH2 similar to the NADH produced during glycolysis? 17. How is the structure of the mitochondrion suited to its function? 18. As electrons are passed along the ETC they lose energy. Where does this ener ...
Photosynthesis Student Notes
... Energy from these excited electrons is used to ____________________________through the chloroplast ...
... Energy from these excited electrons is used to ____________________________through the chloroplast ...
8.2 Photosynthesis essay qus
... photophosphorylation is the production of ATP with energy from light light energy causes photolysis/splitting of watter electrons energized (from chlorophyll)/photoactivation photolysis provides (replacement) electrons for those lost from excited chlorophyll photolysis provides protons/H+ ...
... photophosphorylation is the production of ATP with energy from light light energy causes photolysis/splitting of watter electrons energized (from chlorophyll)/photoactivation photolysis provides (replacement) electrons for those lost from excited chlorophyll photolysis provides protons/H+ ...
Document
... photophosphorylation is the production of ATP with energy from light light energy causes photolysis/splitting of watter electrons energized (from chlorophyll)/photoactivation photolysis provides (replacement) electrons for those lost from excited chlorophyll photolysis provides protons/H+ ...
... photophosphorylation is the production of ATP with energy from light light energy causes photolysis/splitting of watter electrons energized (from chlorophyll)/photoactivation photolysis provides (replacement) electrons for those lost from excited chlorophyll photolysis provides protons/H+ ...
Cellular Respiration
... For each glucose molecule that goes in, the citric acid cycle turns twice. The products of the cycle are 4 CO2, 2 ATP, 6 NADH and 2 FADH2 ...
... For each glucose molecule that goes in, the citric acid cycle turns twice. The products of the cycle are 4 CO2, 2 ATP, 6 NADH and 2 FADH2 ...
Stroma
... 3. Explain what is meant by substrate-level phosphorylation and give two examples. 4. Trace the path of glycolysis from glucose through to pyruvate, listing all major intermediates in the correct order. Be sure to keep track of any phosphorylations and oxidation/reduction reactions that occur along ...
... 3. Explain what is meant by substrate-level phosphorylation and give two examples. 4. Trace the path of glycolysis from glucose through to pyruvate, listing all major intermediates in the correct order. Be sure to keep track of any phosphorylations and oxidation/reduction reactions that occur along ...
Review Notes - Biochemistry
... The goal of all atoms is to have a _STABLE_ outer energy level. The goal leads to bonding of atoms. 2 types of bonding: 1. Ionic Bonding: When _1_ or more electrons are _TRANSFERRED_ from one atom to another. Ion: an atom with a_CHARGE_. When an electron is gained it will be _NEGATIVE_charged ...
... The goal of all atoms is to have a _STABLE_ outer energy level. The goal leads to bonding of atoms. 2 types of bonding: 1. Ionic Bonding: When _1_ or more electrons are _TRANSFERRED_ from one atom to another. Ion: an atom with a_CHARGE_. When an electron is gained it will be _NEGATIVE_charged ...
Stroma
... Explain what is meant by substrate-level phosphorylation and give two examples. Trace the path of glycolysis from glucose through to pyruvate, listing all major intermediates in the correct order. Be sure to keep track of any phosphorylations and oxidation/reduction reactions that occur along the wa ...
... Explain what is meant by substrate-level phosphorylation and give two examples. Trace the path of glycolysis from glucose through to pyruvate, listing all major intermediates in the correct order. Be sure to keep track of any phosphorylations and oxidation/reduction reactions that occur along the wa ...
Photosynthesis Using Light to Make Food
... Cells use electron carriers to transport this energy to other molecules ...
... Cells use electron carriers to transport this energy to other molecules ...
Honors Midterm Review – 2015-16
... _________ responsible for the uncertainty principle which states that it is impossible to know (with any great degree of certainty) both the location and velocity of an electron) _________ responsible for the planetary model of the atom, where electrons traveled in distinct paths around the nucleus ...
... _________ responsible for the uncertainty principle which states that it is impossible to know (with any great degree of certainty) both the location and velocity of an electron) _________ responsible for the planetary model of the atom, where electrons traveled in distinct paths around the nucleus ...
Photosynthesis Reading Guide 1. Define photosynthesis in your
... 1. Define photosynthesis in your own words. 2. Where does photosynthesis occur in… a. Bacteria: b. Algae: c. Plants: d. Humans: 3. State and describe the three stages of photosynthesis. 4. What is the chemical equation for photosynthesis? 5. Draw and label a diagram depicting the inside of a chlorop ...
... 1. Define photosynthesis in your own words. 2. Where does photosynthesis occur in… a. Bacteria: b. Algae: c. Plants: d. Humans: 3. State and describe the three stages of photosynthesis. 4. What is the chemical equation for photosynthesis? 5. Draw and label a diagram depicting the inside of a chlorop ...
Photosystems I and II
... are illuminated with very brief flashes of light, O2 evolution reaches a peak on the third flash and every fourth flash there after as shown to the left. The oscillation in O2 evolution dampens over repeated flashes and converges to an average value. We know the manganese center exists in five diffe ...
... are illuminated with very brief flashes of light, O2 evolution reaches a peak on the third flash and every fourth flash there after as shown to the left. The oscillation in O2 evolution dampens over repeated flashes and converges to an average value. We know the manganese center exists in five diffe ...
Lab 5 - Photosynthesis Reading 09
... extracts that contain a complex mixture of molecules. The solvent moves up the paper by capillary action, which occurs as a result of the attraction of the solvent molecules to the paper and the attraction of the solvent molecules to one another. As the solvent moves up the paper, it caries along an ...
... extracts that contain a complex mixture of molecules. The solvent moves up the paper by capillary action, which occurs as a result of the attraction of the solvent molecules to the paper and the attraction of the solvent molecules to one another. As the solvent moves up the paper, it caries along an ...
Ch 8 Photosynthesis
... 2 Review What is the function of NADPH Infer How would photosynthesis be affected if there were a shortage of NADP+ in the cells of plants. 3 Visual Thinking Draw two leaves- one green and one orange. Show which colors of visible light are absorbed and which are reflected by each leaf. ...
... 2 Review What is the function of NADPH Infer How would photosynthesis be affected if there were a shortage of NADP+ in the cells of plants. 3 Visual Thinking Draw two leaves- one green and one orange. Show which colors of visible light are absorbed and which are reflected by each leaf. ...
Photosynthesis Quiz
... 7. The calvin cycle requires each of the following inputs EXCEPT: A. B. C. D. ...
... 7. The calvin cycle requires each of the following inputs EXCEPT: A. B. C. D. ...
Photosynthesis Skeleton Notes
... Each photosystem is light _________________________ Photosystem II is occurs _________________________ Occurs on the membrane of the _________________________ sacs in the chloroplasts 1. _________________________ is split and _________________________ are passed to a protein 2. Once light is a ...
... Each photosystem is light _________________________ Photosystem II is occurs _________________________ Occurs on the membrane of the _________________________ sacs in the chloroplasts 1. _________________________ is split and _________________________ are passed to a protein 2. Once light is a ...
File
... carbon fixation – CO2 is attached to a molecule called RuBP by the enzyme rubisco forming an unstable six-carbon compound that immediately splits into two three-carbon compounds called 3PGA ATP & NADPH drive the conversion of 3-PGA to G3P for every three CO2 that enter the cycle, six G3P are mad ...
... carbon fixation – CO2 is attached to a molecule called RuBP by the enzyme rubisco forming an unstable six-carbon compound that immediately splits into two three-carbon compounds called 3PGA ATP & NADPH drive the conversion of 3-PGA to G3P for every three CO2 that enter the cycle, six G3P are mad ...
Photosynthesis - World of Teaching
... – Cyanobacteria (photosynthetic bacteria) • To provide this energy to us! ...
... – Cyanobacteria (photosynthetic bacteria) • To provide this energy to us! ...
Photosynthesis
... Phase 1: CO2 is incorporated, called ‘carbon fixation’ Phase 2: phosphorylation, ATP spent, efrom NADPH reduce the C chain so it stores more potential energy 6 molecules with 3 C are made – 5 are recycled and one is released as a future glucose Phase 3: cycles ...
... Phase 1: CO2 is incorporated, called ‘carbon fixation’ Phase 2: phosphorylation, ATP spent, efrom NADPH reduce the C chain so it stores more potential energy 6 molecules with 3 C are made – 5 are recycled and one is released as a future glucose Phase 3: cycles ...
The light reactions
... Chlorophyll (or other pigments) absorbs light energy and conserve it as ATP and NADPH. Not all photosynthetic organisms use H2O as electron donor in photosynthesis; thus not all of them produce O2 while they produce ATP and NADPH. There are two types of photosynthesis: oxygenic (producing oxygen ...
... Chlorophyll (or other pigments) absorbs light energy and conserve it as ATP and NADPH. Not all photosynthetic organisms use H2O as electron donor in photosynthesis; thus not all of them produce O2 while they produce ATP and NADPH. There are two types of photosynthesis: oxygenic (producing oxygen ...
x. photosynthesis
... o Visible light is a small portion of the electromagnetic spectrum. o Light ____________ by chlorophyll and other photosynthetic pigments to power reactions is _____ seen. Light not utilized by plant is reflected & seen by human ...
... o Visible light is a small portion of the electromagnetic spectrum. o Light ____________ by chlorophyll and other photosynthetic pigments to power reactions is _____ seen. Light not utilized by plant is reflected & seen by human ...
SBI 4U Cellular Respiration Review Game2
... 1. How many ATP are produced in Cellular Respiration? 2. What is oxidative phosphorylation? 3. What is substrate-level phosphorylation? 4. What 3 modifications occur to pyruvate in pyruvate oxidation? 5. Where does the Kreb’s Cycle occur in the cell? 6. How molecules of ATP are produced from NADH? 7 ...
... 1. How many ATP are produced in Cellular Respiration? 2. What is oxidative phosphorylation? 3. What is substrate-level phosphorylation? 4. What 3 modifications occur to pyruvate in pyruvate oxidation? 5. Where does the Kreb’s Cycle occur in the cell? 6. How molecules of ATP are produced from NADH? 7 ...