16. The number doubles at each division.
The process that produces sex cells is called meosis and involves 2 reductional divisions, summing up to a total of four cell divisions per meotic cycle.
Meiosis involves two rounds of cell division. After the first division, two cells are produced. After the second division, these two cells each divide again, resulting in a total of four cells.
Meiosis produces four daughter cells. This is because there are two divisions in meiosis. The first division produces two cells. Each of these cells then divides, producing a total of four. For an introduction see: http://www.bbc.co.uk/schools/gcsebitesize/biology/cellprocesses/celldivisionrev3.shtml
At the end of three mitotic divisions, there will be a total of 8 cells. This is because the number of cells double with every division. At the end of the first mitotic division, there are daughter cells. At the end of the second division: daughter cells further divide into two cells, giving 4 cells. At the end of the third division: each of the four cells further divide into 2 cells each, resulting in a total of 8 cell.
Meiosis results in the formation of four haploid cells from a single diploid cell. This process consists of two divisions - meiosis I and meiosis II - each reducing the chromosome number by half. Therefore, the result is four cells with half the number of chromosomes as the original cell.
The process that produces sex cells is called meosis and involves 2 reductional divisions, summing up to a total of four cell divisions per meotic cycle.
Meiosis involves two rounds of cell division. After the first division, two cells are produced. After the second division, these two cells each divide again, resulting in a total of four cells.
At least four. First division produces two cells. Second division produces four. Third division produces eight cells. Fourth division produces sixteen cells. If out of these eight cells of third mitotic division only two cells divide further then we will have 10 cells.
There are actually four major divisions of philosophy; they are Epistemology, Metaphysics, Logic and Ethics. But these four divisions are under Dualism and Non Dualism.
Meiosis produces four daughter cells. This is because there are two divisions in meiosis. The first division produces two cells. Each of these cells then divides, producing a total of four. For an introduction see: http://www.bbc.co.uk/schools/gcsebitesize/biology/cellprocesses/celldivisionrev3.shtml
At the end of three mitotic divisions, there will be a total of 8 cells. This is because the number of cells double with every division. At the end of the first mitotic division, there are daughter cells. At the end of the second division: daughter cells further divide into two cells, giving 4 cells. At the end of the third division: each of the four cells further divide into 2 cells each, resulting in a total of 8 cell.
The two main differences between mitosis and meiosis are the number of divisions and the genetic variation in the resulting cells. Mitosis involves one division and produces two identical daughter cells, while meiosis involves two divisions and produces four genetically diverse daughter cells.
The four divisions of economics are: 1.production 2.distribution 3.consumption 4.exchange
Old Testament falls naturally into four divisions: Law, History, Poetry, and Prophecy. New Testament falls naturally into four divisions: Gospels, History, Letters, and Prophecy. Total divisions eight.
During meiosis, two successive divisions are responsible for the formation of four haploid daughter cells from a single diploid parent cell. This process involves one round of DNA replication followed by two rounds of cell division, resulting in genetic diversity through independent assortment and crossing over.
For the purposes of anatomy the body is divided into four divisions. These divisions are known as the head, the torso and the upper and lower limbs.
Four cells are produced at the end of meiosis because it involves two rounds of cell division (meiosis I and meiosis II), resulting in the division of one diploid cell into four haploid cells. This process helps in creating genetic diversity by shuffling genetic material through the processes of crossing-over, independent assortment, and random fertilization.