The sample is Rh -ve.
In the A --The Blood is mixed with Serum containing Anti A antibody--there is no Agglutination it implies the Blood donot Contain A Antigen on RBC Surface.
In the B--The Blood is mixed with Serum containing Anti B antibody--there is Agglutination-- it implies the Blood Contain B Antigen on RBC Surface.
In the C--The Blood is mixed with Serum containing Anti Rh antibody--there is no Agglutination-- it implies the Blood donot Contain Rh Antigen on RBC Surface.
So the Blood type is B -ve
A B Rh What is the blood type of this sample? A+ AB+ B- 0+
A blood bank asserts that a person with type O blood and a negative Rh factor (Rh−) can donate blood to any person with any blood type. Their data show that 44% of people have type O blood and 17% of people have Rh− factor; 52% of people have type O or Rh− factor. Find the probability that a person has both type O blood and the Rh− factor. Find the probability that a person does NOT have both type...
A blood bank asserts that a person with type O blood and a negative Rh factor (Rh−) can donate blood to any person with any blood type. Their data show that 49% of people have type O blood and 19% of people have Rh− factor; 52% of people have type O or Rh− factor. Find the probability that a person has both type O blood and the Rh− factor
Will a person who is Rh- ever develop anti-Rh antibodies? Why or why not? Blood type O negative (O) O positive (O) Rh Red blood cell Surface proteins Plasma antibodies If never exposed to Rh+ blogd before: After exposed to Rb
4. The presence of Rh factor on red blood cells (Rh positive) is dominant over the absence of Rh factor (Rh negative). What is the probability that two heterozygous parents will have a child who is Rh negative?
Table 4: Blood Typing Results A (Blood Sample A) B (Blood Sample B) C (Blood Sample C) 1 (Anti-A Serum) agglutination no agglutination agglutination 2 (Anti-B Serum) no agglutination agglutination no agglutination 3 (Anti-Rh Serum) no agglutination no agglutination no agglutination Blood Type: Click here to enter text. Click here to enter text. Click here to enter text.
In a certain population, 16% of the people have Rh-negative blood. A blood bank serving this population receives 95 blood donors on a particular day. (Use the normal approximation. Round your answers to four decimal places.) a) What is the probability that 10 or fewer are Rh-negative? b)What is the probability that 15 to 20 (inclusive) of the donors are Rh-negative? c)What is the probability that more than 80 of the donors are Rh-positive?
4) There are four blood types (A, B, AB, and O) and two Rh factors +or -). Each person has a blood type and an Rh factor. The percentages of blood types and Rh factors have a strong relationship to ethnicityas we can see in the tables below US Pop Euro. Afr. L. AmAsia Ethnicity 0 0.38 0.07 0+ 0.37 0.47 0.53 0.39 Caucasian 0.63 O 0.08 0.04 0.04 Lat. American 0.176 A 0.34 0.06 0.01 B 0.09 0.02 Afr....
A mother with Rh negative blood has a baby with Rh positive blood. She get pregnant a second time with Rh positive baby what will occur? A. Nothing will happen this is normal. B. A type III hypersensitivity reaction will occur building up in the baby's organs. C. A type II hypersensitivity reaction will occur leading to lysis of the baby's blood. OD. A type I hypersensitivity reaction will occur in the mother lead to anaphylactic shock. QUESTION 6 Myasthenia...
Solve A blood bank catalogs the types of blood, including positive or negative Rh-factor, given by donors during the last five days The number of donors who gave each blood type is shown in the table below OAB AB Total Rh-factorPoIVe 156 139 37 12 ive 2825 Total Find the conditional distributions of the two Rh-factors for each blood type Display the conditional distributions with side-by-side bar charts Does there appear to be an association between rh-factor and blood type?...