Answer:
The product of Calvin's cycle is high energy sugar.
Explanation:
The Calvin cycle involves a group of chemical reactions in which glucose is obtained from carbon dioxide (CO₂). These reactions occur in the dark phase of photosynthesis and consume energy, to produce a high energy sugar.
The first phase of Calvin's cycle involves the assimilation of CO₂, which he does by binding the gas to <u>ribulose bisphosphate</u>. The second phase consists of glucose synthesis through a specific sequence of steps where NADPH and ATP provide the energy needed for this process.
The other options are not correct because:
- <u><em>Oxygen gas</em></u><em> is a product of photosynthesis, which is released into the environment.
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- <u><em>ATP</em></u><em> </em><em>is not produced by Calvin's cycle, but is used to synthesize glucose.
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- <u><em>Carbon dioxide gas</em></u><em> is incorporated into the plant to perform the Calvin cycle, so it is a substrate not a product.</em>
<span>The
template strand, which is unzipped from the old strand is used to make a new
strand. The new strand then continues to form a double helix with the old/parent template strand. Therefore, after
every replication, the newly formed helix
is composed of an old and new strand. <span> </span></span>
<span>This indicates that energy consumption could have fluctuated. </span>
Answer:
Sodium will let that electron go as soon as it can, which is why it generally forms ionic compounds such as NaCl. When sodium atom loses an electron from its outer energy shell, it becomes Na+ ion. D is the answer
Explanation: