yes, it usually is, the number of protons never changes is in an atom, the amount of neutrons and electrons do however.
If the parents both have the genotype Aa, their children could have the genotypes AA, Aa, or aa. The possible phenotypes for their children would be individuals with type A blood (AA or Aa genotype) or type O blood (aa genotype).
it always depends....
Purebreds can be recessive or dominant, depending on their genotype. A genotype for spots on a griaffe could be AA (purebred dominant), Aa (heterozygous dominant), or AA (purebred recessive)? AA and Aa would both show the dominant phenotype, but only AA and AA are purebreds.
110 AA mean in immunoglobulin chains refers to the number of amino acids in a single domain
To provide an accurate answer, I would need the specific parental genotypes involved in the cross. However, if we assume a simple Mendelian cross between two heterozygous parents (e.g., Aa x Aa), the expected genotypes of the offspring would be: AA, Aa, Aa, and aa. This would yield 1 AA, 2 Aa, and 1 aa, resulting in a total of four offspring with the genotypic ratio of 1:2:1.
There is no element with the abbreviation of "Aa" but here is a list of all the abbreviations that start with "A" in case you meant something else: Al - Aluminum Ar - Argon As - Arsenic Ag - Silver Au - Gold At - Astatine Ac - Actinium Am - Americium
There is no element with the abbreviation of "Aa."
Cannot be determined
Ex. Genotype = Phenotype AA Pure, no cleft chin Aa Hybrid, no cleft chin AA Pure, cleft chin XX Female XY Male
If the parents both have the genotype Aa, their children could have the genotypes AA, Aa, or aa. The possible phenotypes for their children would be individuals with type A blood (AA or Aa genotype) or type O blood (aa genotype).
F5tz 2c018-aa
it always depends....
[(aa + bb) + (ab+ba)(aa+bb)*(ab+ba)]*[a + (ab+ba)(aa+bb)*b]
no 336 is aa square number
hii(: now thats aa good answer...ohh yea
i ask youll to answer and youll answering me aa boh
i ask youll to answer and youll answering me aa boh