The answer would be Diagram A. hope that helped
32 ATP molecules are produced in the transition period during cellular respiration.
Cellular respiration is a series of metabolic reactions and processes that occur within the cells of an organism, converting chemical energy from nutrients to adenosine triphosphate and releasing waste products.
Cell respiration is a series of metabolic reactions and processes that occur within the cells of an organism to convert chemical energy from nutrients to adenosine triphosphate (ATP) and release waste products.
Cell respiration is the process by which organisms use oxygen to break down food molecules to produce chemical energy for cell function. Cellular respiration occurs not only in animal, plant, and fungal cells but also in algae and other protists.
Learn more about cellular respiration here:brainly.com/question/2809259
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Answer:
As liposomes with red blood cell membranes burst more rapidly than those made from egg membranes, we consider these liposomes as more hypertonic respect to water, than those derived from frog egg cells.
Explanation:
Osmosis is a process where water can cross a semipermeable membrane in a gradient way. Water tends to move from a high concentration of solvent to a low concentration. Then, water goes in through the liposome to dilute its solute content, as it's not easy for molecules inside to go out of the usually impermeable membrane bilayers.
<span> The organelle found in most plant cells but not in animal cells is the cell wall.</span>
Hello. this is very simple. i know it and im in middle school. dont highschoolers know that you can just ask google and get a verified answer in just a few seconds?
sighs, well i guess older kids dont get technology as much as we do.
no offense, but seriously if you pay more attention in class you might not be asking this silly question right now.
Molecule which enzyme<span> acts on = the substrate. 5. Substrate molecule is held within the active site by bonds that temporarily form between certain amino acids of the active site and groups on the substrate molecule. ... This folds in a particular way = each </span>enzyme<span> has a </span>specific<span> tertiary </span>structure<span>.</span>
