The Organic Molecules of Life
... the process in which plants, algae, and some bacteria convert light energy from the sun into chemical energy (sugar molecules) Organelle containing chlorophyll. Photosynthesis (energy from sunlight is converted into chemical energyfood) takes place here. most common lipid in our diet; A lipid made ...
... the process in which plants, algae, and some bacteria convert light energy from the sun into chemical energy (sugar molecules) Organelle containing chlorophyll. Photosynthesis (energy from sunlight is converted into chemical energyfood) takes place here. most common lipid in our diet; A lipid made ...
September 23 Worksheet - Iowa State University
... of this organelle, including what thylakoids, granum, and stroma are. 4. What is the source of energy for photosynthesis? How do plants make high energy free electrons? 5. What are the two types of reactions that occur in photosynthesis? 6. Describe the basic process of the light reactions. 7. What ...
... of this organelle, including what thylakoids, granum, and stroma are. 4. What is the source of energy for photosynthesis? How do plants make high energy free electrons? 5. What are the two types of reactions that occur in photosynthesis? 6. Describe the basic process of the light reactions. 7. What ...
Oxygen pulls electrons from sugar
... -Glycolysis is the most wide spread metabolic pathway in all species producing Pyruvate --- is a juncture between aerobic and anaerobic activity ...
... -Glycolysis is the most wide spread metabolic pathway in all species producing Pyruvate --- is a juncture between aerobic and anaerobic activity ...
Review #3 Chapters 9 – 10
... a. The light reactions convert solar energy to chemical energy in the form of ATP and NADPH b. The Calvin cycle uses ATP and NADPH to convert CO2 to sugar c. Photosystem I contains P700 chlorophyll a molecules at the reaction center; photosystem II contains P680 molecules d. In chemiosmosis, electro ...
... a. The light reactions convert solar energy to chemical energy in the form of ATP and NADPH b. The Calvin cycle uses ATP and NADPH to convert CO2 to sugar c. Photosystem I contains P700 chlorophyll a molecules at the reaction center; photosystem II contains P680 molecules d. In chemiosmosis, electro ...
4.2 Overview of Photosynthesis TEKS 4B, 9B
... spectrum, except the green wavelengths. – Green light is reflected by the leaves making plants look green. • The high energy that is absorbed makes photosynthesis work. ...
... spectrum, except the green wavelengths. – Green light is reflected by the leaves making plants look green. • The high energy that is absorbed makes photosynthesis work. ...
Oxidation
... The Light dependent reactions: • Light strikes the Photosystem II causing it to transfer e to primary electron acceptor at the reaction centre. • Excited e travel down the ETC electron transport chain (plastoquinone to cytochrome complex), electron loses energy at each exchange. • Electrons are re ...
... The Light dependent reactions: • Light strikes the Photosystem II causing it to transfer e to primary electron acceptor at the reaction centre. • Excited e travel down the ETC electron transport chain (plastoquinone to cytochrome complex), electron loses energy at each exchange. • Electrons are re ...
Transport of molecules into a bacterial cell
... – In Electron transport, electrons are passed to oxygen so that these metabolic processes can continue with more glucose. – Electron carriers in membrane are reversibly reduced, then reoxidized as they pass electrons (or Hs) to the next carrier. ...
... – In Electron transport, electrons are passed to oxygen so that these metabolic processes can continue with more glucose. – Electron carriers in membrane are reversibly reduced, then reoxidized as they pass electrons (or Hs) to the next carrier. ...
reactions --- electrons can`t flow in a vacuum, oxidation reactions
... H2O in one step, too much energy is released. Living systems have a solution to this problem: ...
... H2O in one step, too much energy is released. Living systems have a solution to this problem: ...
Take home Quiz #3 - San Diego Mesa College
... Intro Molecular Cell Biology (Bio210A); Instructor: Elmar Schmid, Ph.D. Q. 6: Anything that prevents ATP formation in a cell A) force the cell to relay on ADP for energy B) forces the cell to relay on lipids for energy C) results in the conversion of kinetic energy into chemical energy D) results in ...
... Intro Molecular Cell Biology (Bio210A); Instructor: Elmar Schmid, Ph.D. Q. 6: Anything that prevents ATP formation in a cell A) force the cell to relay on ADP for energy B) forces the cell to relay on lipids for energy C) results in the conversion of kinetic energy into chemical energy D) results in ...
state university college at buffalo - Buffalo State College Faculty and
... Choose the best answer for the question or the best ending for each statement. Write the letter (A-E) which corresponds to the best answer on the line before the question. (2 pts each) _____1. Which of the following is true about energy? A. B. C. D. E. ...
... Choose the best answer for the question or the best ending for each statement. Write the letter (A-E) which corresponds to the best answer on the line before the question. (2 pts each) _____1. Which of the following is true about energy? A. B. C. D. E. ...
8.3 study guide answer key
... Photosystems are clusters of proteins and chlorophyll in thylakoid membranes. High-energy electrons form when pigments in photosystem II absorb light. The electrons pass through electron transport chains, a series of electron carrier proteins. The movement of electrons through an electron transpor ...
... Photosystems are clusters of proteins and chlorophyll in thylakoid membranes. High-energy electrons form when pigments in photosystem II absorb light. The electrons pass through electron transport chains, a series of electron carrier proteins. The movement of electrons through an electron transpor ...
Biology 301 Exam 3 Name Spring 2008 1. Which of the following is
... C. in the fluid matrix of the mitochondria. D. on the outer mitochondrial membrane and on the inner mitochondrial membrane 31. Photosynthetic electron transport in cyanobacteria takes place A. on the plasma membrane. B. on the thylakoid membranes. C. in the chloroplast. D. in the cytoplasm. 32. The ...
... C. in the fluid matrix of the mitochondria. D. on the outer mitochondrial membrane and on the inner mitochondrial membrane 31. Photosynthetic electron transport in cyanobacteria takes place A. on the plasma membrane. B. on the thylakoid membranes. C. in the chloroplast. D. in the cytoplasm. 32. The ...
Exam 3 Review - Iowa State University
... 15. Which substance should form an acidic solution in water? a. Na2O b. SO2 c. CO d. BaO 16. Which of the following is the largest in size? a. Clb. Cl c. I+ d. I17. When an alkali metal reacts with water, a metal hydroxide and a gas form. Which gas forms? a. Carbon dioxide b. Oxygen c. Ozone d. Hydr ...
... 15. Which substance should form an acidic solution in water? a. Na2O b. SO2 c. CO d. BaO 16. Which of the following is the largest in size? a. Clb. Cl c. I+ d. I17. When an alkali metal reacts with water, a metal hydroxide and a gas form. Which gas forms? a. Carbon dioxide b. Oxygen c. Ozone d. Hydr ...
Cellular Respiration
... the final electron acceptor with the H+, to make water without it the electrons can’t go through ...
... the final electron acceptor with the H+, to make water without it the electrons can’t go through ...
Levels of Organization - Bremen High School District 228
... 3. Proteins are polymers of amino acids a. Amino acids are compounds with an amino group (NH₂) at one end and a carboxyl group (COOH) at the other. b. There are 20 different amino acids c. Amino acids are joined together by peptide bonds to form a dipeptide or a ...
... 3. Proteins are polymers of amino acids a. Amino acids are compounds with an amino group (NH₂) at one end and a carboxyl group (COOH) at the other. b. There are 20 different amino acids c. Amino acids are joined together by peptide bonds to form a dipeptide or a ...
Exam #2
... reverse electron flow and NAD+ reduction to NADH? (It’s all about Eo’ values) What are the parallels between oxidative phosphorylation and photophosphorylation? What is the difference between chlorophylls and accessory pigments? Name some of each and which bacteria an eukaryotes have them. What is a ...
... reverse electron flow and NAD+ reduction to NADH? (It’s all about Eo’ values) What are the parallels between oxidative phosphorylation and photophosphorylation? What is the difference between chlorophylls and accessory pigments? Name some of each and which bacteria an eukaryotes have them. What is a ...
Chapter 7
... • Set of four numbers that completely specify each electron 1. Prinicipal quantum number, n, corresponds to the energy level 2. Second quantum number, l, corresponds to the sublevel within the energy level. It provides information about the shape of the electron cloud 3. Third quantum number, m, is ...
... • Set of four numbers that completely specify each electron 1. Prinicipal quantum number, n, corresponds to the energy level 2. Second quantum number, l, corresponds to the sublevel within the energy level. It provides information about the shape of the electron cloud 3. Third quantum number, m, is ...
Thermodynamics photosynthesis handout
... There are two absorption maxima, one in the red at about 680 nm, the other in the blue at about 450 nm. The red maximum is also the one that is efficient for photosynthesis. Chlorophyll, a green substance, has a porphyrin ring similar to the ones present in the heme of the cytochromes, which are yel ...
... There are two absorption maxima, one in the red at about 680 nm, the other in the blue at about 450 nm. The red maximum is also the one that is efficient for photosynthesis. Chlorophyll, a green substance, has a porphyrin ring similar to the ones present in the heme of the cytochromes, which are yel ...
Light Independent
... ★ Carried out in plants and some bacteria ★ Occurs in the chloroplast ★ Two reactions are involved: Light Dependent and Light Independent ...
... ★ Carried out in plants and some bacteria ★ Occurs in the chloroplast ★ Two reactions are involved: Light Dependent and Light Independent ...
Ch 5.1 The Nature of Chemical Reactions
... • Describe difference between endothermic and exothermic reactions ...
... • Describe difference between endothermic and exothermic reactions ...
2A Final Exam Review Worksheet
... ribose. B. If the molecular mass of ribose is 150.13 g/mol what is the molecular formula of ribose? 7. Reactions A. Balance: HClO4 + P4O10 → H3PO4 + Cl2O7 B.Which of the following represents a redox reaction? i) 2 H2(g) + O2(g) → 2 H2O(l) ii) NH3(aq) + HCl(aq) → NH4Cl(aq) iii) 2 NaOH(aq) + CuCl2(aq) ...
... ribose. B. If the molecular mass of ribose is 150.13 g/mol what is the molecular formula of ribose? 7. Reactions A. Balance: HClO4 + P4O10 → H3PO4 + Cl2O7 B.Which of the following represents a redox reaction? i) 2 H2(g) + O2(g) → 2 H2O(l) ii) NH3(aq) + HCl(aq) → NH4Cl(aq) iii) 2 NaOH(aq) + CuCl2(aq) ...