1. The Blood -made up of _______, ____ ______ _____, ______ ______ _____, and ________ I. Erythrocytes-____ ______ _____ -___________ cells (____-____ life span) which carry _______ __________ to ___________ (____ ________) -_____ _______ to increase ________ _____ for ________ _______ -______ _____ determined by ________ or ________ of certain _____________called _________

2. The Blood I. Erythrocytes R x – Sickle Cell Disease-____________ _____ causes ______ to become ________-_______or ______-_______ -under conditions of ____ _______, ________- _______ ______ don’t ______through the _________ and become ________ in _________ _____, _________ them up, causing ______ ______ -____________ ______ form causes _______ ____ _______, ___________ ____ form is _______ R x – Anemia

3. R x – Sickle Cell Disease -____________ _____ form is actually _____ ________ for ________in the ________ ____, because the ________ __________ (___________ __________), which ______ more ________during ______than all ______ of _______ _________ and has been the _______cause of ______ of _______throughout ______ _______, cannot ______a ______ ____ -if _____of a person’s ______ are _______- _______, they are ____as _____ to get _______ -among ________ __________, __ in ___carry the ________ _____, and __ in ____ have _______ _____ ________ ♂ ♀ -____________ _____ form is _____-_______ and ________

4. If Sid, who is heterozygous for the sickling gene, and Sydney, who is homozygous for normal blood cells, have 4 children, how many, according to the odds, should have sickle-cell anemia? ♂ ♀ If Simon, who has sickle-cell anemia, and Sarah, who is heterozygous, have 12 children, how many, according to the odds, should have sickle-cell anemia? ♂ ♀

5. If Sam, who is homozygous for normal red blood cells, and Samantha, who is heterozygous, have 8 children, how many, according to the odds, should be best adapted for survival in the malarial belt? ♂ ♀ I. Erythrocytes A. Blood Types 1. Type A

6. I. Erythrocytes A. Blood Types 2. Type B 3. Type AB

7. I. Erythrocytes A. Blood Types 4. Type O If Alfred, who is blood type A and whose mother is blood type O, and Beulah, who is homozygous for blood type B, have 6 children, how many, according to the odds, should have blood type B? ♂ ♀

8. If Oscar, who is blood type O, and Amy, who is blood type A but her father is blood type O, have 10 children, how many, according to the odds, should have blood type O? I. Erythrocytes A. Blood Types ♂ ♀ If Abner, who is blood type AB, and Brenda, who is heterozygous for blood type B, have 12 children, how many, according to the odds, should have blood type A? ♂ ♀

9. I. Erythrocytes A. Blood Types 5. Rh Factor

10. If Amos, who is blood type A - and whose mother’s blood type is O -, and Belinda, whose blood type is B + and whose father’s blood type is O -, have 11 children, how many, according to the odds, should have blood type A + ? ♂ ♀ ♂ ♀

11. If Abner, who is blood type AB + and whose father’s blood type is B -, and Olivia, whose blood type is O + and whose mother’s blood type is O -, have 14 children, how many, according to the odds, should be males with blood type B + ? ♂ ♀ ♂ ♀ ♂ ♀

12. If Alex, who is blood type A - and whose father’s blood type is O -, and Betty, whose blood type is B + and whose mother’s blood type is O -, have 9 children, how many, according to the odds, should be females with blood type O - ? ♂ ♀ ♂ ♀ ♂ ♀

13. R x – Erythroblastosis fetalis

14. ♂ ♀

15. ♂ ♀ r Rr rrRr rrRr r Blood mixes as umbilical cord tears Rh + father Rh - mother Blood mixes as umbilical cord tears

16. R x – Erythroblastosis fetalis♂ ♀ r Rr rrRr rrRr r Blood mixes as umbilical cord tears Rh + father Rh - mother

17. If Rex, who is homozygous recessive for the Rh factor, and Belinda, who is heterozygous for the Rh factor, have 6 children, how many, according to the odds, should be at risk for Erythroblastosis fetalis, if no RhoGam is given? ♂ ♀ ♂ ♀ If Roxanne, who is homozygous recessive for the Rh factor and whose mother’s blood type is A +, and Rick, who is heterozygous for the Rh factor, have 6 children, how many, according to the odds, should be at risk for Erythroblastosis fetalis, if no RhoGam is given?

18. II. Leukocytes R x – Leukemia A. Granulocytes 1. Neutrophils

19. 2. Eosinophils A. Granulocytes II. Leukocytes 3. Basophils

20. II. Leukocytes A. Granulocytes 3. Basophils B. Agranulocytes R x – Acquired Immunodeficiency Disease (AIDS) R x – Mononucleosis

21. II. Leukocytes B. Agranulocytes 1. Lymphocytes a. T-lymphocytes b. B-lymphocytes

22. II. Leukocytes B. Agranulocytes 2. Monocytes III. Thrombocytes

23. IV. Plasma

24. R x – Hemophilia ♂ ♀ If Nicholas, who is normal, and Alexandra, who is a carrier of hemophilia, have 5 children, how many, according to the odds, should have hemophilia?

25. ♂ ♀ If Hector, who is a male hemophiliac, and Hestor, who is a carrier of hemophilia, have 8 children, how many, according to the odds, should be female hemophiliacs? If Harold, who is normal, and Hattie, who is a carrier of hemophilia, have 9 children, how many, according to the odds, should have hemophilia? ♂ ♀