Answer:
The correct answer to the following question will be Option C.
Explanation:
- Rupal helps determine that aluminum is perhaps the most powerful oxidant by finishing an only quarter of her research study. By failing to complete the research, the learner acquired insufficient data as well as managed to reach incorrect conclusions.
- The much more oxidizing agent throughout the excitation prequel list seems to be currently potassium, don't seem aluminum (because while aluminum was an extremely powerful metal or oxidant).
Other given choices are not related to the given situation. So that Option C seems to be the appropriate answer.
Answer:
The pros would be that its another way to use Uranium and another energy to use, but a negative side would be that it can poison, or burn anyone that comes near it.
Explanation:
DNA is basically the hard copy. It is double stranded and found in every cell. It contains a library of EVERY single protein that the body makes. Cells supress bits of the DNA because every protein does not apply to every cell.
<span>mRNA is the portable version that is taaken away from the hard copy to make the actual protein. It is single stranded and codes for 1 protein (although in bacteria one mRNA can code for many proteins). It is the actual bit that gets TRANSCRIBED in the nucleas (copied) and TRANSLATED (written) into proteins in the cytoplasm on ribosomes (which are incidently another form of RNA...rRNA). </span>
<span>DNA functions include getting copied to every daughter cell too
</span>
It should be whatever organ the tissue is making up, for instance, muscle tissue can make the stomach.
Hope this helps!
Answer:
If body temperature rises, blood vessels in the skin dilate, allowing more blood to flow near the skin's surface. ... Conversely, if your body is too cold, blood vessels in the skin contract, and blood flow to the extremities (arms and legs) slows. Muscles contract and relax rapidly, which generates heat to keep you warm.