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There were incorporated into organic molecules by plants, they were processed into sugars through photosynthesis, and they are ultimately derived from carbon dioxide.
Energy is derived from adenosine tri-phosphate by breaking the molecular bonds in cellular respiration, look up citric acid cycle for further information.
The oxygen in the atmosphere is primarily derived from plant respiration
Building up sugars from carbon dioxide and water is something almost only green plants can do. They have special cell organelles called chloroplasts for that.Other than that, cyanobacteria can also do photosynthesis, but they're procaryotic and don't really have cell organelles.chloroplasts
Glucose is the initial source of energy for glycolysis (the first step in cellular respiration).Respiration produces ATP, which is a form of energy that the cell can use.
2 carbon sub-groups derived from fat (or sugar if insulin is present).
Answer Choices: A) mitosome B) kinetoplast C) chloroplast D) hydrogenosome E) mitochondrion Answer:C) chloroplast Explanation: Chloroplasts are not related to all the other choices. Mitochondria, kinetoplasts, mitosomes, and hydrogenosomes are similar in that they both deal with cellular respiration, regardless of whether it is aerobic or anaerobic. On the other hand, chloroplasts deal with photosynthesis, a process which is the complete opposite of cellular respiration.
it is an animals way of obtaining energy through the resources a plant creates during photosynthesis. C6H12O6+ 6O2----> 6H20 + 6CO2+ ATP [or the reverse process of phosphgluberdating]
Energy is derived from the process of cellular respiration. Metabolism is divided into two processes, anabolism and catabolism.. Respiration is catabolistic, and supplies the energy for life functions.
yes. they were also processed into sugars through photosynthesis and they are ultimately derived from carbon dioxide
The ATP utilized in transpiration is derived from the respiration of organic molecules. This is what is commonly known as aerobic respiration.
There were incorporated into organic molecules by plants, they were processed into sugars through photosynthesis, and they are ultimately derived from carbon dioxide.
Energy is derived from adenosine tri-phosphate by breaking the molecular bonds in cellular respiration, look up citric acid cycle for further information.
Oxygen is important to us because almost all forms of life on earth use oxygen in cellular respiration. Cellular respiration is a reaction that takes glucose (a compound derived from food, originally constructed by plants in photosyntesis) and oxygen and creates water, carbon dioxide and releases a significant amount of energy. That energy is what allows the cell to do whatever it does. If those cells stop working, so does the thing they collectively are, be that thing a person, another type of animal, a plant, a fungus, protist, or bacteria. Oxygen is actually produced as a waste byproduct in some reactions. Many of the bacteria that do not consume oxygen are actually oxygen producers. In the last billion or so years, plants have largely replaced bacteria as oxygen producers, since more oxygen is released during photosynthesis than is used by the plant's cellular respiration (this also results in a net reduction in carbon dioxide by the plant, since it consumes more carbon dioxide in photosynthesis than it produces in cellular respiration.)
The oxygen in photosynthesis is derived from water.
They were incorporated into organic molecules by plants, they were processed into sugars through photosynthesis, and they are ultimately derived from carbon dioxide.
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