it all depends on your blood type ant he two put together, its not necessarially goig to be one of your or the mothers blood types it all jsut depends
Based on Punnett squares, the possible outcomes are A, B and AB.
If the parent's blood type is A and B, respectively, the possible blood type of their child are A, AB, B and O.
This would depend on what the genotype is of the parents. They could have children with type A, B, AB, or O type blood. This is possible if they are both heterozygous if they are homozygous for their respective blood types they could only have AB children. Also the statistics for the blood types would change if one parent was homozygous and one parent were heterozygous.
Use a punnet square it may be a little tricky though.Just remember which letter is dominant and which one is recessive.heterozygous and Homozygous.
yes
O
o-
If you both have O+ blood then your offspring could only be O+.
You can check your future offsprings blood type using an inheritance chart. If both you and your partner have A blood, then there is a great chance that the child will have A blood as well.
Possible blood types are A, B, or AB. Basically, the offspring can be any blood type except for O.
25%
Without any further information about the blood types of the offspring's parents, you can say that the offspring of a parent with type A and parent of type B could have any blood type -- A, B, O, or AB.
100% of the offspring of type O parents will be type O.
Without any further information about the blood types of the offspring's parents, you can say that the offspring of a parent with type A and parent of type B could have any blood type -- A, B, O, or AB.
Certain blood types are not obtainable in offspring when the parents have certain blood types.
The blood types are A, B, AB and O. Rh positive or negative are also blood types possible. What blood type we will have is inherited from our parents.
no. The possible blood types of an offspring are A, B, and AB. in order to have a recesive gene have a possibility of appeaing in the child oth the mother and father must carry the gene.