Answer: B.
Explanation:
cant be 'A' cause carbon 14 is found in any living organism and mammals are not the only living organism on this planet
cant be 'C' cause ancient plants still replenish carbon 14 molecules and it'd be impossible to now its age when its still alive
couldnt be 'D' cause yeah while alive organisms do absorb carbon 14 that still defeats the purpose of dating with the carbon 14 method cause its still also taking in carbon dioxide, so the carbon-14 molecules will just keep filling until the organism dies. the whole point of dating with carbon 14 is to measure its deplenish (dying) not continual replenish (living)
dont know if that makes any sense to you but yeah 'B' is the answer, if it isnt im stoopid but im not
The correct answer is: The Hypothesis of *EVOLUTION*.
Answer:
Water will move out of the cell because the beaker solution has a lower water potential than the cell is the answer.
Thus Option C is correct.
Explanation:
The way how a water moves from one point that is out of the cell to the another point that is into the cell is called as water potential. It depends on two factors, that is, the solute potential and pressure potential. The solute potential has an inverse relationship with the water potential.
If the solute potential is higher than water potential will be less and vice versa. So in this above mentioned experiment the solute potential of the cell is less than that of the solution so water will move out of the beaker as per the rule.
Answer:
spray chemicals on plants to stop insects from eating them. insert genes that produce anti-insect chemicals into the plant. insert genes that produce insulin into the plant.
<span>The cell division process that produces new cells for growth, repair, and the general replacement of older cells is called mitosis. In this process, a somatic cell divides into two complete new cells that are identical to the original one. Human somatic cells go through the 6 phases of mitosis in 1/2 to 1 1/2 hours, depending on the kind of tissue being duplicated.</span>
