The reduction of one molecule of carbon dioxide (CO2) into one molecule of glucose (C6H12O6) during photosynthesis typically requires the absorption of six molecules of carbon dioxide, 12 molecules of water, and energy in the form of light quanta (photons). The exact number of light quanta required can vary depending on several factors, including the type of photosynthetic pigments involved and the specific environmental conditions.
In the case of photosynthesis in plants, it's important to note that not all absorbed photons directly lead to carbon dioxide reduction. Some photons are lost as heat during the process, and some are used for processes other than carbon dioxide reduction, such as powering the synthesis of ATP and NADPH.
The theoretical minimum number of photons required to reduce one molecule of CO2 to glucose is often referred to as the "quantum requirement" and can vary depending on the specific circumstances. On average, it's estimated to be in the range of 8 to 10 photons per molecule of CO2, but this can vary.
Keep in mind that this is a simplified explanation, and the actual process of photosynthesis is quite complex and involves multiple steps and reactions. The exact number of light quanta required may vary in different organisms and under different conditions.
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Emerson found that 8 quanta of light energy would be required for the reducation of one molecule of CO2 to carbon dioxide that is one molecule of O2 is produced .
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Answer:
The reduction of one molecule of carbon dioxide (CO2) into one molecule of glucose (C6H12O6) during photosynthesis typically requires the absorption of six molecules of carbon dioxide, 12 molecules of water, and energy in the form of light quanta (photons). The exact number of light quanta required can vary depending on several factors, including the type of photosynthetic pigments involved and the specific environmental conditions.
In the case of photosynthesis in plants, it's important to note that not all absorbed photons directly lead to carbon dioxide reduction. Some photons are lost as heat during the process, and some are used for processes other than carbon dioxide reduction, such as powering the synthesis of ATP and NADPH.
The theoretical minimum number of photons required to reduce one molecule of CO2 to glucose is often referred to as the "quantum requirement" and can vary depending on the specific circumstances. On average, it's estimated to be in the range of 8 to 10 photons per molecule of CO2, but this can vary.
Keep in mind that this is a simplified explanation, and the actual process of photosynthesis is quite complex and involves multiple steps and reactions. The exact number of light quanta required may vary in different organisms and under different conditions.
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Answer:
Emerson found that 8 quanta of light energy would be required for the reducation of one molecule of CO2 to carbon dioxide that is one molecule of O2 is produced .
Explanation:
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