The number of chromosomes in daughter cells after mitosis is the same as in the parent cell. Each daughter cell will have the identical number of chromosomes as the parent cell.
Each daughter cell has 46 chromosomes, or you can say 23 pairs of chromosomes.
One Cell has 10 chromosomes, it divides into 5 chromosomes. So at the end it has, 5 chromosomes. Your Welcome for the answer! ^_^
If a human liver cell divides by meiosis, the new cells would each have the normal number of chromosomes for a human cell, which is 46 chromosomes. Meiosis is the process of cell division that results in halving the chromosome number to produce gametes (sperm and eggs) with 23 chromosomes each.
No, the nucleus in a cell is what controls cell division.
The number of chromosomes in daughter cells after mitosis is the same as in the parent cell. Each daughter cell will have the identical number of chromosomes as the parent cell.
Each daughter cell has 46 chromosomes, or you can say 23 pairs of chromosomes.
Each daughter cell has 46 chromosomes, or you can say 23 pairs of chromosomes.
One Cell has 10 chromosomes, it divides into 5 chromosomes. So at the end it has, 5 chromosomes. Your Welcome for the answer! ^_^
If a human liver cell divides by meiosis, the new cells would each have the normal number of chromosomes for a human cell, which is 46 chromosomes. Meiosis is the process of cell division that results in halving the chromosome number to produce gametes (sperm and eggs) with 23 chromosomes each.
No, the nucleus in a cell is what controls cell division.
Each sperm cell will contain n chromosomes, which is half the number of chromosomes in the original cell.
so that when the cell divides each new cell has a full copy of the DNA
the cell divids
The chromosomes have to split and go to opposite sides of the cell.
When meiosis begins at Gap 1 phase (G1) the cell of a human has 46 chromosomes or 2n.
The original and duplicated chromosomes attach to the cell membrane or the plasma membrane before the cell divides in half during binary fission in prokaryotes. This ensures that each daughter cell receives a complete set of chromosomes.