I am not quite sure what you mean with "type of number". In any case, 46 chromosomes is 2 x 23 chromosomes; that is, the chromosomes come in pairs.
Forty six is an integer
Their basically 0 and 1's
Type your answer here... Haploid
Bacteria are not classified by the number of chromosomes, or the type of mitochondria.
The chromosome number is specific for each type of organism. The exact chromosome number must be maintained for the species to continue. This means that as cells reproduce, the new cells must have the same number of chromosomes as did the original cells
A diploid cell. In other words, a cell containing 2n chromosomes.
Its and even number, but probably... having 46 chromosomes would make humans a diploid being
Their basically 0 and 1's
Diffrent people have diffrent chromosomes.
It all depends on the type of organism on many chromosomes are present in each cell. By regular cell division each new cell will have the same number as the original cell. Some organisms have many more chromosomes than humans do and some have many less chromosomes.
No there isn't. Humans are much more complex than a fern, yet the Adder's Tongue Fern has 1262 chromosomes and a human has only 46. It also doesn't work the other way either (more complex organisms having less chromosomes) for fruit flies have 8 chromosomes and dogs have 78. Also, chimpanzees have the same number of chromosomes as potatoes and, surely, they are on different complexity levels.
Irrational.
Meiosis
Type your answer here... Haploid
haploid
An autosome is a type of chromosome that does not happen to be a sex chromosome (allosome). Humans will each have 42 autosome chromosomes and one pair of allosome chromosomes.
It depends on the type of eukaryotic organism. For example, both humans and fruit flies are a part of the kingdom Animalia, which is composed solely of eukaryotic organisms. However, humans have 43 chromosomes in 23 homologous pairs, while fruit flies have 8 chromosomes in 4 homologous pairs.
(Mendel's law of) independent assortment. This states that the chromosomes can line up along the equatorial line in 2^23 different arrangements (in humans- but 2^n in other animals with a different number of chromosomes)