Maybe, it depends.
Everyone has at least two genes for hair color, but brown is dominant. If both parents have Brown-Blond genes, then they will have brown hair (because it is dominant over blond), but the child could get one blond gene from each parent and thus be Blond-Blond, and thus be blond.
Both of the parents were heterozygous with the blonde hair allele, which is recessive. When there are two parents that are heterozygous, there is a 25% chance their offspring will get two of the recessive alleles. A punnett square can be useful when determining the different phenotypes and genotypes possible in offspring
Yes they could have a child with blue eyes. Each person get's two pigments sort of for their eyes. If your other parent who has no blue eyes has a pigment of blue than, yes, the child could have blue eyes.
depends on the MAle and Female gender who has the certain traitsthere is 100% chance that the child would be brunette unless the Mother had One Dom. Brunette Trait and a recessive Lighthair trait (Xx) there Would be a Fifty Percent chance for a RedHead Child if the mother was a Carrier.(Xx)(x)XX,XX(y)Xy,xy
It is possible but rarely it depends on the genes.
The blond in the kitchen is Brenna Mader, the brunette having a drink is Tiffany Wade. Still searching for the other two ladies.
It is possible. Red hair is the most recessive type of hair, followed by blond. It is very possible for two red-headed parents to have a blond haired child. It is even more likely if there are direct relatives that have blond hair, as that gene would usually come out over a red-haired gene. The child may also have red-ish blond hair as they get older, as the gene starts to maifest itself. (This often happens with skin color, folowed by hair color and eye color in children as they age.)
There is a 26% chance that the child of two left-handed parents will be left-handed.
No. Two rhesus-negative parents cannot have a rhesus-positive child.
There are technically only three hair colors: black (brunette), blond, and red. Red is a mutation, and as such is very rare. Brunette is the most common, by advantage of being the primary hair color of the most populous nation of the world. Only those of Oriental heritage can have true brunette hair. All other dark hair colors are a combination of blond or red with brunette. Those with any shade of red hair must have two copies of a recessive gene on chromosome 16. This causes a mutation in the melanotropin receptor. Only 1-2% of the world's population has red hair (2-6% of those with northern European descent). Auburn is a combination of brunette and red.
The blond singer's name is Agnetha Faltskog.
when the two parents that are dating become married and are legal