You mean meiosis. At the end of meiosis II, each diploid parent cell produces four haploid cells. In males, all four will become gametes called sperm cells. In females, one of the four haploid cells will receive the vast majority of cytoplasm and will become the female gamete, which is an ovum or egg cell. The other three cells will be reabsorbed.
In men, you will end up with four functional sperm, each genetically different. In women, you will only end up with one functional cell, the egg, and three genetically useless cells. For the purposes of basic meiosis, the answer is four.
It really depends on whether you're talking about a male or female. Males will form four gametes. Females will form one gamete and three polar bodies. Probably the safest answer would be four. Good luck!
At the end of mitosis, each daughter cell will have the normal number of chromosomes. In humans, this is 23.
4 :) to put it simply...im horrible at explaining things :S Please don't hate on my simple answer, take pity on me cuz I have a bio final tomorrow but Ive been sick and havent studied....
10:)
four dumbbutt
4
No - mitosis results in two genetically identical diploid cells.Meiosis creates four haploid cells.
Meiosis works to produce gametes, not mitosis.
Mitosis is used to produce daughter cells that are genetically identical to the parent cells. The cell copies - or 'replicates' - its chromosomes, and then splits the copied chromosomes equally to make sure that each daughter cell has a full set.
It is a key part of offspring creation
No. The main function of meiosis is to produce gametes for reproduction. The whole process passes through the called "reductionist division", that is, the first part is to duplicate chromosomes but just before the cell division (that comes after chromosome duplication in normal mitosis) there is a second division of chromosomes producing haploid cells or gametes (1n) instead two identical cells (diploid or 2n) derived from mitosis.
This is called mitosis. Be careful to note that the parent cell does not always have 2n chromosomes and it may produce sexual cells (gametes)- because that is exactly what almost all plants do in the alternation of generations. A gametophyte is haploid and in order to create haploid gametes it uses mitosis.
Meiosis and not mitosis must be used to produce gamete. This is because meiosis produces spores that are used for reproduction and can form similar copies to the parent cell.
No - mitosis results in two genetically identical diploid cells.Meiosis creates four haploid cells.
An RRYy parent can form two different gametes: an RY and an Ry
Meiosis works to produce gametes, not mitosis.
Tetrads don't form in mitosis. Tetrads form so that chromosomes can undergo crossing over which is a form of genetic recombination. The products of meiosis are gametes which ensure genetic diversity in subsequent generations. In mitosis, the daughter cells are genetically identical to the parent cell. No genetic recombination occurs in mitosis.
Meiosis and not mitosis must be used to produce gamete. This is because meiosis produces spores that are used for reproduction and can form similar copies to the parent cell.
A human is created by two gametes, one from each parent, fuse to form a zygote, which is unique from the cells of either parent and is the initial cell that eventually becomes the offspring.
No, mitosis is not an appropriate method for forming sex cells. Mitosis is the process of cell division that produces two genetically identical daughter cells, while sex cells (gametes) like sperm and eggs are formed through a specialized cell division called meiosis. Meiosis produces cells with half the number of chromosomes as the parent cell, allowing for genetic diversity and the union of gametes during sexual reproduction.
Mitosis is used to produce daughter cells that are genetically identical to the parent cells. The cell copies - or 'replicates' - its chromosomes, and then splits the copied chromosomes equally to make sure that each daughter cell has a full set.
No. Each gamete is genetically different from the other gametes and from the parent cell.
In eukaryotes, there are two distinct types of cell division: a vegetative division, whereby each daughter cell is genetically identical to the parent cell (mitosis), and a reproductive cell division, whereby the number of chromosomes in the daughter cells is reduced by half to produce haploid gametes (meiosis).