Both the process photosynthesis and cellular respiration require cells to use water.
Further Explanation:
The photosynthesis process has two stages, that are light-dependent reactions and light-independent reactions. During the light reaction, there occurs the splitting of water that oxidizes the water molecules. During the dark reaction, carbon dioxide fixation is done by plants. It is the reaction wherein the water molecules get oxidized, and carbon dioxide gets reduced. The plants consume carbon dioxide and produce oxygen molecules during the photosynthesis process.
Cellular respiration is a biochemical pathway during which the breaks down of glucose occurs, and ATP is generated. It is a redox reaction wherein substrates like glucose molecules are oxidized, and other molecules like oxygen are reduced. In anaerobic respiration, glucose is breakdown without oxygen. In the cellular respiration process, animal utilizes oxygen and glucose to produce water and carbon dioxide. Thus, both the process involves water either as a reactant or produces as a byproduct.
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Answer Details:
Grade: High School
Subject: Biology
Topic: Respiration
Keywords:
Photosynthesis, cellular respiration, dark reaction, process, oxygen, water, glucose, carbon dioxide, animal, plant, light-dependent reaction, oxidized, reduced.
Photosynthesis and cellular respiration are both complex chemical reactions, working in opposite directions but sharing deep molecular commonality and complexity.
The correct answer is B. Photosynthesis and cellular respiration are indeed both complex chemical reactions. While they function in contrast to each other, they share molecular commonality and complexity. Photosynthesis takes place in chloroplasts of plant cells, converting sunlight, carbon dioxide, and water into glucose and oxygen. On the other hand, cellular respiration in mitochondria of cells takes glucose and oxygen, releasing energy, carbon dioxide and water. Despite their functional contrast, they're both intricate, multi-stage processes involving a variety of enzymes and other molecules.
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Answer:
Protista, its the only one I could think of that would fit your description.
Explanation:
b. natural gas
c. isobutanol
d. none of the above
The correct answer is isobutanol.
Genetic engineering is the branch in which a little manipulation in the DNA of the organism can help in production of the desired product. The cyanobacteria belongs to the phylum of bacteria that performs photosynthesis.
The synthesis of isobutanol cab be done by genetically modified cyanobacteria as these modified cyanobacteria produce biofuels, such as isobutanol with the help of solar energy and carbon dioxide. They grow faster as compared to plants and absorb sunlight more efficiently so they can replenish more isobutanol.
Answer:
It is c
Explanation:
All the explanations are avaible in the attached file.
The matches are:
1. Society ==> a group of people with common practices, activities, and interests.
2. Civilization ==> a highly developed society.
3. Culture ==> all the knowledge and values...
4. Historical Method ==> Collecting, classifying, analyzing, and interpreting data
5. Anthropology ==> the study of humans.
6. Primary source ==> a document that was produced during the same time period as the historical event.
7. Secondary source ==> a document produced some time after the historical event.
The ester bonds in lipids are found where the fatty acids of the lipid join to the glycerol back bone of the lipid.
Lipids are made from two kind of molecules namely Glycerol and Fatty acids. A glycerol molecule is made up of three carbon atoms with an alcohol group attached to each of the carbon atoms and hydrogen atoms occupying the remaining positions.
A fatty acids consist of an acid group at the end of the molecule and a hydrocarbon chain.
In a process called esterification, the acid group of the fatty acid joins to the alcohol group of the glycerol molecule and water is released resulting in the formation of a linkage called an ester bond.