Module 4: Genetics
... 8.2.3 Explain the light-dependent reactions. Outline the light-dependent reactions [6 marks] • Chlorophyll in PSII/PS680 absorbs photons • This produces an excited electron (photoactivation) • Electron is passed down an electron transport chain from one carrier to the next • The electron from PSII ...
... 8.2.3 Explain the light-dependent reactions. Outline the light-dependent reactions [6 marks] • Chlorophyll in PSII/PS680 absorbs photons • This produces an excited electron (photoactivation) • Electron is passed down an electron transport chain from one carrier to the next • The electron from PSII ...
Grading Rubric: Photosynthesis and Cellular
... H2O, CO2, O2, Glucose, Light-Dependent Reaction, LightIndependent Reaction, Calvin Cycle, NADP+, ADP + P, ATP, NADPH, Sunlight, grana, stroma, thylakoids CO2 ...
... H2O, CO2, O2, Glucose, Light-Dependent Reaction, LightIndependent Reaction, Calvin Cycle, NADP+, ADP + P, ATP, NADPH, Sunlight, grana, stroma, thylakoids CO2 ...
Biochemistry Quiz Review 1II 1. Enzymes are very potent catalysts
... 25. Describe the part of the glycolytic pathway from fructose 6-phosphate to glyceraldehyde 3phosphate. Show structures of intermediates, enzyme names, and indicate where any cofactors participate. ...
... 25. Describe the part of the glycolytic pathway from fructose 6-phosphate to glyceraldehyde 3phosphate. Show structures of intermediates, enzyme names, and indicate where any cofactors participate. ...
Respiration, Lithotrophy & Photosynthesis
... the reduction potential (E) between the oxidized form (e– acceptor) and its reduce form (e– donor) - The reduction potential is a measure of the tendency of a molecule to accept electrons. A reaction is favored by positive values of E, which yield negative values of DG. The standard reduction potent ...
... the reduction potential (E) between the oxidized form (e– acceptor) and its reduce form (e– donor) - The reduction potential is a measure of the tendency of a molecule to accept electrons. A reaction is favored by positive values of E, which yield negative values of DG. The standard reduction potent ...
Chemistry - El Camino College
... and are called ______ or electrolytes 2. _________ Bonds are strong chemical bonds between atoms that result from the _______ of electrons in their outer orbitals. Molecules with covalent bonds are represented 2 ways: a. ___________ formulas in which each pair of shared electrons is represented by a ...
... and are called ______ or electrolytes 2. _________ Bonds are strong chemical bonds between atoms that result from the _______ of electrons in their outer orbitals. Molecules with covalent bonds are represented 2 ways: a. ___________ formulas in which each pair of shared electrons is represented by a ...
Unit 3 Notes
... 1. Light strikes the photosystem II 2. An electron in the photosystem reaction centre is ‘excited’. 3. The electron is passed to an electron-accepting molecule. a. Gain electron = reduced = has greater energy 4. The reaction centre in the photosystem is now missing an electron – which has to be repl ...
... 1. Light strikes the photosystem II 2. An electron in the photosystem reaction centre is ‘excited’. 3. The electron is passed to an electron-accepting molecule. a. Gain electron = reduced = has greater energy 4. The reaction centre in the photosystem is now missing an electron – which has to be repl ...
Review Guide
... 9. How many atoms of each element are found in each of the following: a. 3C6H12O6 2Na(OH)2 b. 10. How many electrons MAXIMUM can each energy level hold? 11. Draw the Bohr model of the elements (with correct placement of electrons) below: a. Helium b. Lithium c. Fluorine 12. What does the “Octet Rule ...
... 9. How many atoms of each element are found in each of the following: a. 3C6H12O6 2Na(OH)2 b. 10. How many electrons MAXIMUM can each energy level hold? 11. Draw the Bohr model of the elements (with correct placement of electrons) below: a. Helium b. Lithium c. Fluorine 12. What does the “Octet Rule ...
(B) Where CO 2
... (B) Aerobic bacteria were put with algae. They would go to O2 source. (C) Bacteria went to where Photosynthesis would release O2. (where red & blue light are) SAME PATTERN AS ACTION SPECTRUM. ...
... (B) Aerobic bacteria were put with algae. They would go to O2 source. (C) Bacteria went to where Photosynthesis would release O2. (where red & blue light are) SAME PATTERN AS ACTION SPECTRUM. ...
Physics and the Quantum Mechanical Model
... The light is made up of only a few specific frequencies, depending on the element Each frequency is a different color The light is emitted as electrons fall from one energy level to another, like from n=4 to n=1 They are like atomic fingerprints- every element is ...
... The light is made up of only a few specific frequencies, depending on the element Each frequency is a different color The light is emitted as electrons fall from one energy level to another, like from n=4 to n=1 They are like atomic fingerprints- every element is ...
5.3- Physics and the Quantum Mechanical Model
... The light is made up of only a few specific frequencies, depending on the element Each frequency is a different color The light is emitted as electrons fall from one energy level to another, like from n=4 to n=1 They are like atomic fingerprints- every element is ...
... The light is made up of only a few specific frequencies, depending on the element Each frequency is a different color The light is emitted as electrons fall from one energy level to another, like from n=4 to n=1 They are like atomic fingerprints- every element is ...
Chemical Reaction
... The smallest units of matter; combines with other atoms to form molecules. Both living and nonliving things are made from atoms. ...
... The smallest units of matter; combines with other atoms to form molecules. Both living and nonliving things are made from atoms. ...
HW CH 2 JLH - Fullfrontalanatomy.com
... An acid is a substance that releases hydrogen ions when dissolved in water. A base is a substance that combines with hydrogen ions in water. A buffer is a compound that tends to maintain a solution at a constant pH by accepting or releasing hydrogen ions in response to small changes in hydrogen ion ...
... An acid is a substance that releases hydrogen ions when dissolved in water. A base is a substance that combines with hydrogen ions in water. A buffer is a compound that tends to maintain a solution at a constant pH by accepting or releasing hydrogen ions in response to small changes in hydrogen ion ...
WS on obj. 1-11
... 3. _____ (T/F) The number of valence electrons is very important in determining the chemical properties of an element. 4. _____ (T/F) The elements of a group have different numbers of valence electrons. 5. _____ (T/F) The representative groups 1A-7A have the same number of valence electrons as their ...
... 3. _____ (T/F) The number of valence electrons is very important in determining the chemical properties of an element. 4. _____ (T/F) The elements of a group have different numbers of valence electrons. 5. _____ (T/F) The representative groups 1A-7A have the same number of valence electrons as their ...
Solution
... 39) Choose the transition (in a hydrogen atom) below that represents the emission of the shortest wavelength photon. A) n = 1 to n = 2 B) n = 2 to n = 3 C) n = 4 to n = 5 D) n = 6 to n = 3 E) n = 3 to n = 1 40) Draw the Lewis structure for sulfate. How many equivalent resonance structures can be dra ...
... 39) Choose the transition (in a hydrogen atom) below that represents the emission of the shortest wavelength photon. A) n = 1 to n = 2 B) n = 2 to n = 3 C) n = 4 to n = 5 D) n = 6 to n = 3 E) n = 3 to n = 1 40) Draw the Lewis structure for sulfate. How many equivalent resonance structures can be dra ...
EXAM III KEY - the Complex Carbohydrate Research Center
... 3. (10 pts.) If actively respiring mitochondria are exposed to an inhibitor of ATP synthase, the electron transport chain ceases to operate. Why? ...
... 3. (10 pts.) If actively respiring mitochondria are exposed to an inhibitor of ATP synthase, the electron transport chain ceases to operate. Why? ...
Sept. 19
... i. Capture photon ii. Use energy from photon to split water iii. Use electron from splitting water to synthesize ATP & NADPH 2. Calvin cycle i. Uptake of CO2 ii. Synthesis of 3-C compound (PGA) iii. Synthesis of 6-C compound (glucose) D. Photosynthesis constraints & solutions 1. C4 photosynthesis (s ...
... i. Capture photon ii. Use energy from photon to split water iii. Use electron from splitting water to synthesize ATP & NADPH 2. Calvin cycle i. Uptake of CO2 ii. Synthesis of 3-C compound (PGA) iii. Synthesis of 6-C compound (glucose) D. Photosynthesis constraints & solutions 1. C4 photosynthesis (s ...
Tianyu`s Photosynthesis Notes - APBio09-10
... 10.2: Light Reactions convert solar energy to the chemical energy of ATP and NADPH The Nature of Sunlight -light is a form of energy known as electromagnetic radiation -wavelength determines the distance between the crests and the waves -the entire range of electromagnetic radiation is known as the ...
... 10.2: Light Reactions convert solar energy to the chemical energy of ATP and NADPH The Nature of Sunlight -light is a form of energy known as electromagnetic radiation -wavelength determines the distance between the crests and the waves -the entire range of electromagnetic radiation is known as the ...
CHAPTER 3 ESSENTIALS OF METABOLISM
... • Electrons are transferred to a final electron acceptor. – In aerobic respiration, the final acceptor is oxygen. – In anaerobic respiration, the final acceptor is an inorganic oxygen-containing molecule. ...
... • Electrons are transferred to a final electron acceptor. – In aerobic respiration, the final acceptor is oxygen. – In anaerobic respiration, the final acceptor is an inorganic oxygen-containing molecule. ...
photosynthesis
... ATP. These now are in the Stroma outside the Thylakoid membrane and ready to fuel the Calvin Cycle which occurs there. ...
... ATP. These now are in the Stroma outside the Thylakoid membrane and ready to fuel the Calvin Cycle which occurs there. ...
PHOTOSYNTHESIS & RESPIRATION
... ** Chloroplast has double membrane ** Thylakoids: sac-like photosynthetic membranes – Arranged in stacks called GRANA – Have chlorophyll and other pigments ...
... ** Chloroplast has double membrane ** Thylakoids: sac-like photosynthetic membranes – Arranged in stacks called GRANA – Have chlorophyll and other pigments ...
Photosynthesis
... you placed adoes plant not in absorb just green green light? wavelengths of light. Just blue light? ...
... you placed adoes plant not in absorb just green green light? wavelengths of light. Just blue light? ...
Cell Energetics - Practice Test - Biology
... a. It stores energy as glucose. b. It transfers energy to cell processes. c. It releases energy when it gains a phosphate group. d. It converts sunlight into chemical energy. ____ 19. Which of the following is the site of the photosystems in the light-dependent reactions of photosynthesis? a. stroma ...
... a. It stores energy as glucose. b. It transfers energy to cell processes. c. It releases energy when it gains a phosphate group. d. It converts sunlight into chemical energy. ____ 19. Which of the following is the site of the photosystems in the light-dependent reactions of photosynthesis? a. stroma ...
Paracoccus denitrificans
... • dark reactions in which the energy produced in the light reactions is used to reduce CO2 and synthesize cell ...
... • dark reactions in which the energy produced in the light reactions is used to reduce CO2 and synthesize cell ...
Chapter 5 Bacterial Metabolism
... • The electrons from the first cytochrome are transported to another cytochrome and then to the next down the chain • This is why the process is referred to as the electron transport chain because it helps transfer electrons down a chain of cytochromes to be finally transferred to an oxygen molecule ...
... • The electrons from the first cytochrome are transported to another cytochrome and then to the next down the chain • This is why the process is referred to as the electron transport chain because it helps transfer electrons down a chain of cytochromes to be finally transferred to an oxygen molecule ...