Answer:
-100
Explanation:
If the total water potential in the soil around a plant root were -50 kPa, water would move from the soil into the root if the water potential inside the root cells were -100 kPa.
The water potential of a substance represents the measure of potential energy in water molecules in a system as compared to that of pure water. It is also a measure of the tendency of water to move from one region to another.
<em>Usually, water will move from the region of high water potential to the region of low water potential. Hence, for water to move from the soil into the root, the root must have a lower water potential than the soil.</em>
The soil had -50 kPa water potential, hence the only option that is lower than -50 kPa is -100.
The correct answer is -100 kPa.
The expected frequencies are f(A1) = 0.9700, f(A2) = 0.0300
according to the Hardy-Weinberg model. For biologists studying a large flatworm
population in the lab, which Hardy-Weinberg condition is most difficult to meet
there is no mutation. It is called a genetic disorder in homozygous recessives
that causes death during the teenage years.
D) Circulatory system is the one that transports nutrients to body cells.
During meiosis the parent cells are eventually split into four cells that aren't identical at all. During meiosis 1 crossing over occurs which causes the chromosomes to basically get all mixed up