Daughter cells produced by mitosis and cytokinesis have the same number of chromosomes as the original cell. Daughter cells resulting from meiosis and cytokinesis have half the number of chromosomes as the original cell.
Mitosis is asexual reproduction, which means it will produce an identical copy after mitosis - meaning the same number of chromosomes, the same DNA, etc..
The resulting cells after cell division will have the same number of chromosomes as the original cell. If the original cell is a somatic cell, it will have 46 chromosomes in humans. If the original cell is a germ cell, it will have 23 chromosomes in humans.
In Mitosis when only 2 cells are formed out of one the number of chromosomes is the same in Meiosis when ultimately 4 new cells are formed the number of chromosomes is also the same, HOWEVER these chromosomes each contain half the number of genes as theses cells are gametes
In humans meiosis produces 23 chromosomes. The human body cell has 46 chromosomes When meiosis occurs 1/2 of the body cells go into the haploid cell produced
34 Mitosis followed by cytokinesis produces genetically identical daughter cells.
How many chromosomes does each new cell contain after mitosis if the original cell had 52 original cell chromosomes?
How many chromosomes does each new cell contain after mitosis if the original cell had 52 original cell chromosomes?
After meiosis II, each cell will have a haploid number of chromosomes, which means they will have half the number of chromosomes compared to the original cell before meiosis.
Mitosis is asexual reproduction, which means it will produce an identical copy after mitosis - meaning the same number of chromosomes, the same DNA, etc..
At each pole of a cell during cell division, there are half the number of chromosomes compared to the original cell. This is because the chromosomes have replicated during interphase, so each pole will have a full set of chromosomes once cell division is complete.
They would each have 52. When a cell divides through mitosis, it copies the original chromosomes, pulls them apart so that there is a copy of the same set of chromosomes on each side of the cell, then divides. The original set of chromosomes will always be the exact same set as the daughter cell's set of chromosomes (unless something went horribly wrong.) -if you are on a worksheet called "Section 1 Reinforcement - Cell Division and Mitosis" for number 8, I'm in the same situation...
Mitosis produces two cells that have the same number of chromosomes as the original (parent) cell. For example, a human cell has 46 chromosomes - so after mitosis each cell will have 46 chromosomes.
52
Each new cell produced after meiosis has half the number of chromosomes compared to the original cell, so each new cell will have half the number of chromosomes as the parent cell. This reduction in chromosome number is important for maintaining the correct chromosome number in sexually reproducing organisms.
Each new cell will have a complete set of chromosomes, identical to the original cell. If the original cell was diploid (2n), each new cell will also be diploid. If the original cell was haploid (n), each new cell will be haploid.
52 - mitosis produces daughter cells with exactly the same chromosomes of the original cell.
After mitotic cell division, if the parent cell had 52 chromosomes, the daughter cells will also have 52 chromosomes identical to each other and the parent cell.