Answer:
8,324,608 chromosome combinations
Explanation:
During meiosis, chromosomes separate independently so that only one chromosome came from the father and the other homologous chromosome came from the mother. This process of independent assortment produces a huge amount of possible combinations in the diploid zygote cell. In humans, the haploid number of chromosomes is n = 23, thereby there are 2²³ = 8,324,608 chromosome combinations. Thus, the independent assortment of chromosomes during meiosis is a key factor that contributes to genetic variation in the offspring.
The term stellate cells usually refers to neurons in the central nervous system with the shape of star (there are many dendrites raising from the cell body). Stellate nervous cells can be spiny or aspinous. Those cell are located in cerebellum, are inhibitory and GABAergic.
There are also hepatic stellate cells in the perisinusoidal space of the liver involved in the process of fibrosis (response to liver damage).
Another type of stellate cells is found in pancreas-pancreatic stellate cells. These cells look like myofibroblast and are similar to hepatic stellate cells.
Valuable elements such as carbon, oxygen, hydrogen, phosphorus, and nitrogen are essential to life and must be recycled in order for organisms to exist. Nutrient cycles are inclusive of both living and non-living components and involve biological, geological, and chemical processes.Aug 5, 2017
i think after one disappears then the other one would have to find a diffrent sourse in order to live or make a diff species
True
Explanation:
The water molecules move from areas of high concentration to areas of low concentration to make an equivalent between the two.
I hope this helps at least a little :D
