<span>Radiochemical dating is the answer!</span>
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Hey There!</h2><h2>
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Answer:</h2>
![\huge\boxed{OptionB}](https://tex.z-dn.net/?f=%5Chuge%5Cboxed%7BOptionB%7D)
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_____________________________________</h2><h3>MECHANISM:</h3>
Following diagram shows the transport of protein.
1- The nucleus is involved in teh formation of mRNA which is used to send message to the ribosome about what kind of protein is used to synthesize
2- and 3- Endoplasmic Reticulum(ER), Rough ER has the ribosomes on their surface, which are involved in teh formation of protein.
4- They are the vesicles from the RER
5- It is the Golgi body or Golgi complex or golgi apparatus or simply Dictyosomes. They are used in the packaging of the protein, gives the protein finishing touch before they move out from the cell. They like ER has canalicular system with sacs but they are parallel arranged, flattened membrane bounded with lack of ribosomes. They have two faces. One is receiving face which receives the vesicles from the Endoplasmic reticulum called cis face. The other is shipping face which releases packaged protein into the cytoplasm ready to go outside from the cell.
6and 7- They are the vesicles from the golgi bodies.
8- Vesicle diffuses with the cell membrane through which the protein is moving out from the cell, the process called exocytosis.
<h2>_____________________________________</h2><h2>Best Regards,</h2><h2>'Borz'</h2>
Answer:
Chlorophyll a
Explanation:
Chlorophyll is green pigment stored on chloroplast thylakoids where it participates in the process of photosynthesis as a light collector and photoelectric transformer.
There are five types of chlorophylls, but chlorophyll a is the main pigment of photosynthesis and is contained in all green plants that perform photosynthesis.
Chlorophyll has the ability of fluorescence, which means that the light it absorbs can be released again. Therefore, the solution of chlorophyll, observed in the tube in reflected light, is a deep red color.
Answer:
At 40x, Stella could see the cells, but they will look really small. At 100x, Stella was able to see the cells to the point where she could see most of them up close. At 400x, Stella could see the cells one by one close enough. Some of the cells are shoe-shaped, which is one of the characteristics of paramecium. The brown at 400x next to the orange is the one that mostly looks like a shoe.
Explanation:
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The conditions of the Hardy-Weinberg law are _____ met in nature.
rarely