energy (which is converted to chemical energy) and enzymes in the chloroplasts (mainly mesophyll cells called palisade cells). How It Works: Carbon Dioxide + Water  Glucose + Oxygen 6CO2 + 6H2O  C6H12O6 + 6O2 - Water from the soil travels (by osmosis) through root hair cells to the xylem vessels then passes into the mesophyll cells (palisade) to the chloroplasts. - Carbon dioxide from air diffuses into leaves through stomata then it moves through
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of these reactions are glucose and oxygen gas‚ which is released into the air. Glucose is used by the plant‚ with much of it being converted into other carbohydrates like starch and cellulose. Glucose is a simple sugar with the molecular formula C6H12O6. It belongs to the carbohydrate class of macronutrients. Group | Building Block | Large Molecule | Function | To Identify‚ Look for . . . | Carbohydrate | Monosaccharide | Polysaccharide | Energy storage‚ receptors‚ structure of plant cell wall
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Cellular Respiration Project Objective Answers 1. The overall equation for Cellular Respiration is 6O2 + C6H12O6 6H2O + 6CO2 + energy. Overall‚ it is the reverse reaction of photosynthesis‚ but chemically‚ the steps involved are very different. All you have to do is just flip both sides of the equation of photosynthesis‚ and you have the opposite‚ which is the equation for cellular respiration. They are reversible chemical reactions‚ meaning that the products of one process are the exact
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both reactions release heat after reacting with oxygen. Another similarity is that both reactions release energy after oxidation. For respiration‚ the equation for the oxidation of glucose is: Glucose + Oxygen → Carbon dioxide + Water + Energy C6H12O6 + 6O2 → 6CO2 + 6H2O + energy A substance called ADP (adenosine diphosphate) reacts with a phosphate group to form an ATP molecule (adenosine triphosphate). ADP + phosphate + energy → ATP In burning‚ the energy released is in form of heat and light
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How a faster pulse rate after exercise affects the amount of carbon dioxide in breath and how males and females pulse rates change or don’t after exercise Introduction There is a chemical reaction that takes place in this lab‚ O2 + C6H12O6 –> H2O + CO2 + ATP. This represents cellular respiration‚ the reaction. The reactants are Oxygen and Glucose. The products are water‚ carbon dioxide‚ and ATP. This reaction is split into 3 stages‚ the Glycolysis stage‚ the Krebs cycle‚ and the Electron Transport
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A.P. Chemistry Practice Test: Unit 4 Chapter 5: Thermochemistry Multiple Choice. 1. The sketch below represents a cooling curve for water at 1 atm pressure. (Note: CI = heat capacity of water in region I‚ T = change in temperature between points specified‚ Hfus = heat of fusion.) Which of the following statements is/are true? I. No heat energy is being added or removed from the system between points B and C II. The quantity of heat being removed from the system between points C and
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For my Chemistry paper I decided that I would do technology. Some of the topics I chose for my paper was how chemistry helps with technology by helping with Forsenic Science‚ Crime Scene Investigations‚ the wiring of bombs‚ fireworks and guns preventing premature detonatations‚ and Engineering. Chemistry deals with technology and sciences since technology is used to make experiments. Another example of everyday use is the computer that helps you in your research and communications. Forensic
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Lab 8 Cellular Respiration and Fermentation Objectives: 1. Observe the effects of cellular respiration on temperature in a closed system. 2. Investigate carbon dioxide production in both germinating pea seeds and crickets. 3. Perform an investigative study of the rate of cellular respiration in both pea seeds and crickets at various temperatures. 4. Compare the alcoholic fermentation of glucose‚ sucrose‚ and starch by yeast. Introduction All organisms must have a continual
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Transfer electrons from donor to acceptor atoms • Donor is oxidized as it releases electrons • Acceptor is reduced as it accepts electrons Cellular Respiration Series of chemical reactions and electron exchanges that convert glucose into ATP C6H12O6 + 6O2 6CO2 + 6H2O + ATP + heat Aerobic respiration – involving oxygen Anaerobic respiration – no oxygen Cellular Respiration Series of chemical reactions and electron exchanges that convert glucose into ATP Fig 6.5 Can transfer more of
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electrons generated in Photosystem 1 then moves along the electron transport chain. The moving of electrons causes a hydrogen ion gradient that is used in the final step to produce ATP‚ by the ATP Synthase. The equation for this reaction is 6CO2 + 6H2O C6H12O6+6O2 or‚ carbon dioxide +water sugars + oxygen . This reaction takes place on the thylakoid membrane of the chloroplast and uses energy from sunlight to produce compounds like ATP and NADPH. The second stage of photosynthesis is the Calvin Cycle‚
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