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the Calvin cycle of photosynthesis requires CO2 (carbon dioxide) organisms that are heterotrophs, like us, which cannot produce their own food consume autotrophs like plants, which do produce their own food. a by-product of cellular respiration is CO2 a by-product of photosynthesis is O2 organisms like us need O2 to live organisms like plants need CO2 to live (and to support us in life--we eat them because they have sugar [i.e., glucose])
Energy produced in photosynthesis is put into usable form through cellular respiration. They are both ways cells gain energy. In photosynthesis, cells use solar energy to produce glucose and oxygen from carbon dioxide and water. In cellular respiration, cells make ATP (which is used as energy by the cells) and consume oxygen during the conversion of glucose to carbon dioxide and water.
Respiration and photosynthesis are two seoarate processes, so reversing photosynthesis would not give you respiration. However the two processes are in some ways the reverse of each other. Photosynthesis uses CO2 and produces O2. Respiration uses O2 and produces CO2.
1:Cellular respiration 2:Aerobic respiration 3:glycolysis
Cellular respiration, combustion, and decomposition.
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the Calvin cycle of photosynthesis requires CO2 (carbon dioxide) organisms that are heterotrophs, like us, which cannot produce their own food consume autotrophs like plants, which do produce their own food. a by-product of cellular respiration is CO2 a by-product of photosynthesis is O2 organisms like us need O2 to live organisms like plants need CO2 to live (and to support us in life--we eat them because they have sugar [i.e., glucose])
Energy produced in photosynthesis is put into usable form through cellular respiration. They are both ways cells gain energy. In photosynthesis, cells use solar energy to produce glucose and oxygen from carbon dioxide and water. In cellular respiration, cells make ATP (which is used as energy by the cells) and consume oxygen during the conversion of glucose to carbon dioxide and water.
They can be thought of as the 'reverse' of each other (though their repective biochemical pathways are in no ways similar) and are the two halves of the carbon cycle. Respiration: Glucose + Oxygen -> Carbon dioxide + Water Photosynthesis: Carbon dioxide + Water -> Glucose +Oxygen
Cells can release energy in two basic processes: Cellular respiration and fermentation. Cellular respiration requires oxygen but fermentation does not. Cellular respiration releases MUCH more usable energy then fermentation does.
Respiration and photosynthesis are two seoarate processes, so reversing photosynthesis would not give you respiration. However the two processes are in some ways the reverse of each other. Photosynthesis uses CO2 and produces O2. Respiration uses O2 and produces CO2.
2 ways alike:both photosynthesis and respiration occur in organelles of plant cells.both involve the flow of electrons through the cell membrane in order to harvest energy.2 ways they are different:Respiration produces energy, where as Photosynthesis requires energyPhotosynthesis takes place in chloroplasts, respiration takes place in mitochondriaSources:AnswerYahoo&Chris FTWBest answer 40%10 answersMember Since:December 10, 2009Total Points:178 (Level 1)Points earned this week:0 Add to My ContactsBlock UserBest Answer - Chosen by Voters2 ways alike:
respiration and photosynthesis
1:Cellular respiration 2:Aerobic respiration 3:glycolysis
Measure ATP production, carbon dioxide production, and oxygen use For one molecule of glucose, you will get the most ATP if using cellular respiration as opposed to just glycolysis More carbon dioxide will be produced if using cellular respiration
Two ways cells release energy are through photosynthesis, in which carbon dioxide and light energy are used to make glucose, and through aerobic cellular respiration, where glucose is broken back down in the presence of oxygen, forming carbon dioxide and energy.
1. It is exothermic, not endothermic (it releases energy rather than storing it) 2. It is catabolic, not anabolic (it breaks down larger molecules into simpler ones, rather than building them)