Diploids and Haploids.
Haploids have one set of chromosomes (Gametes).
Diploids have two sets of chromosomes (Zygotes).
The term "hiploid" seems to be a typographical error, likely referring to "haploid." In this context, if an organism has a haploid number of 36, it means that its gametes (sperm and egg cells) contain 36 chromosomes. Consequently, the diploid number, which represents the total number of chromosomes in somatic cells, would be 72, as diploid cells contain two sets of chromosomes.
It's homicide.
Chromosomes are comprised of DNA. Chromosomes are located inside the nucleus of every cell. There are exactly 46 chromosomes in every one of your body's cells.
The word 'sixteen', or any cardinal number is a noun or adjective.
Depending on how it is used a number can be either a verb or an adjective.
There are 23 chromosomes in a human gamete
A zygote has twice the amount of chromosomes as a gamete.
Human gametes have 23 chromosomes. (In cases of abnormality there may be a different number of chromosomes in a gamete).
A zebra gamete would have 25 chromosomes after meiosis, as the chromosome number is halved during this process.
A Drosophila gamete has 4 chromosomes. Drosophila, also known as fruit flies, have a diploid number of 8 chromosomes in their somatic cells, which means each gamete will have half of that number.
The number of chromosomes in a gamete is represented by "n". This symbol represents the haploid number of chromosomes in a cell, which is half the number of chromosomes found in a diploid cell.
A gamete of Drosophila has 2n chromosomes, which is the haploid number. Drosophila, like most organisms, has a diploid number of chromosomes in its somatic cells. During meiosis, gametes are produced with half the number of chromosomes to maintain the chromosome number in the species.
It varies from organism to organism. Humans have 23 chromosomes in a haploid (gamate) cell.
The haploid number is the number of chromosomes in a gamete.
Haploid (?)
the variable that is deliberately changed
D. Be produced by meiosis