a-
Positive - most of them are far away.
If the mother's genotype is BB, the child can be type B or AB (50/50 chance). The child cannot be type A or O. If the mother's genotype is BO, the child can be any type, tho B or AB is more likely. The Rh factor is likely positive but can be negative. So, without knowing the mother's genotype, and the father's specific Rh factor (++ or +-), we cannot be sure.
50% chance of A. 50% chance of B. either positive or negative(shruggs). If the child is AB the mother screwed around on the 'dad' If the child is O you did the test wrong, because their is no way the woman can be wrong about whether or not the baby came out of her
You didn't provide an ion. So since it's a positive most likely a negative ion.
Their children have a 50/50 chance of being Rh Positive. If they have an Rh negative first child, there will be no problems with the second child (with Rh groups).There might be a problem if the first child was Rh positive. It is quite likely that during the delivery the child's blood mixed with the mothers. The mother would then have began producing Rh positive antibodies. This means that if the second child is also Rh positive - the antibodies will 'attack' the fetus.
AB+
For A+ and O- parents, the child can be either A or O, and either + or -. They are slightly more likely to be O+ than any other.
I think more likely B, not sure though.
Most likely A+ since blood type A is dominant over O Positive or negative is more of a guess since the parents hold the positive and negative alleles, the child will hold one of three combinations --(neg), -+(pos) or ++(pos). So the child will most likely carry the D antigen however this is just the most likely result.
Definitely. One Rh positive parent is at least 50% likely to produce Rh positive offspring.
If a father is O positive and a girl is A negative, this will not likely pose a problem with a baby. It may cause the mother to have to get a Rhogam shot when she is pregnant.
Negative blood types are the dominant gene, so it is more likely that the baby will have A- blood, but there is still a chance that it has A+.
Positive - most of them are far away.
If the mother's genotype is BB, the child can be type B or AB (50/50 chance). The child cannot be type A or O. If the mother's genotype is BO, the child can be any type, tho B or AB is more likely. The Rh factor is likely positive but can be negative. So, without knowing the mother's genotype, and the father's specific Rh factor (++ or +-), we cannot be sure.
positive two whoever wrote positive 2 is wrong and most likely intoxicated or below 10 years old..the answer is really positive 4. 2 times two equals four and negative times negative equals positive..positive 4
Because A Negative x A pOsItIVE = nEgaTiVE * * * * * (-4)4 = 256. It is positive, not negative. The most likely reason for getting a negative result is that no brackets were used and so what was calculated was actually -44
The chance they will have a child is most likely high unless they use birth control. If the mother were rh-negative, that can sometimes cause complications, though it's usually manageable.