46 chromosomes are needed . 23 from the males sprem and 23 from the females egg.
Humans have 46 chromosomes. This means they will produce sex-cells (sperm and ovum/egg) which have 23 chromosomes.
A human being normally has 46 chromosomes (23 pairs) in all but the sex cells. Half of each chromosomal
These are similarities between human spems and egg cells:Number of chromosomes: Normally both contain a haploid chromosome set, i.e. 23 chromosomes, as opposed to normal diploid body cells with 46 chromosomes.Both are developed in a process called meiosis from germ cells.Both are gametes or reproductive cells.
23, there are 23 chromosomes in human gametes
In a human being, there would be 23 pairs of chromosomes, adding up to 46 chromosomes. In fact, all the body cells have this many chromosomes normally.
46 chromosomes are needed to create a human
Humans have 46 chromosomes. This means they will produce sex-cells (sperm and ovum/egg) which have 23 chromosomes.
Humans have 23 pairs of chromosomes.
Every human being has 23 pairs of chromosome which translates into 46 chromosomes.
2 pairs of chromosomes....i.e.46 no. of chromosomes...
XY
Your hands
A human being normally has 46 chromosomes (23 pairs) in all but the sex cells. Half of each chromosomal
These are similarities between human spems and egg cells:Number of chromosomes: Normally both contain a haploid chromosome set, i.e. 23 chromosomes, as opposed to normal diploid body cells with 46 chromosomes.Both are developed in a process called meiosis from germ cells.Both are gametes or reproductive cells.
If there is a lack of chromosomes, then the full genetic structure of a human being cannot be reproduced because a human is made up of forty-three chromosomes (twenty-three from each parent) and if one is missing, there will only be forty-five, which will not reproduce a human being.
23, there are 23 chromosomes in human gametes
In a human being, there would be 23 pairs of chromosomes, adding up to 46 chromosomes. In fact, all the body cells have this many chromosomes normally.