You typically type the letter "b" with your left hand. It is located on the home row of the keyboard, specifically under the left index finger. When touch typing, your left hand naturally covers the keys on that side, making it easy to reach "b" with your index finger.
No, type B blood does not have A antigens. Type B blood has B antigens.
Left hand Right hand E B-E-B B B-Eb-E C# C#-E-E+A A Ab-F#-E Repeat that 3 times, on the fourth it changes: Left hand Right hand E B-E-B Eb B-F#-E D+A
If the recipient has type B blood, they can receive either type B or type O blood. If the donor blood is type B, then the recipient can be either type B or type AB
blood type A has type A antigens. blood type B has type B antigens.
If two people with Type B blood have a child, the child will either be Type B or Type O.
People who are of the blood type B can only receive type B or type O. Type A people can receive type A or type O Type AB people can receive type A, B, or O Type O people can only receive type O
We are looking for the possible blood types of a baby.Parental information:Mother type B pos -- can be BB or BO with Rh (++) or (+-)Father type B pos -- can be BB or BO with Rh (++) or (+-)Baby receives one gene from each parent: Baby is type BB (++)/(+-) = Type B posBaby is type BB (--) = Type B negBaby is type BO (++)/(+-) = Type B posBaby is type BO (--) = Type B negBaby is type OO (++)/(+-) = Type O posBaby is type OO (--) = Type O negYES. These parents can have a child that is Type B negative.
blood type B
blood type B
Type A blood has A antigens on red blood cells, while type B blood has B antigens. Type A individuals have anti-B antibodies, and type B individuals have anti-A antibodies. Type AB individuals have both A and B antigens, while type O individuals have neither A nor B antigens.
Yep, without a doubt.....type B. Never has and never will b a type A.
A person who is heterozygous for Type B blood has the genotype I^B i, where I^B represents the allele for Type B blood and i represents the allele for Type O blood. This means they carry one allele for Type B and one for Type O. As a result, they express the Type B blood phenotype due to the presence of the dominant I^B allele.