Answer the following using Branch Diagrams using a set of completely made-up human characteristics below: having a long middle toe (L) is dominant to having a short middle toe (l) being quirky (Q) is dominant to being normal (q) being calm (C) is dominant to being hyperactive (c) liking french fries (F) is dominant to not liking them (f) a) If a man who is homozygous for the following traits: long middle toe, quirky, hyperactive, and liking french fries; has a child with a woman who is heterozygous for a long middle toe, and being quirky and is homozygous for being hyperactive and not liking french fries, what would the odds that they would have a child with a long middle toe who is quirky, calm and likes french fries? Show your work. b) Given the same parents, could they have a child who has a long middle toe and is quirky, calm, and doesn’t like french fries? Explain your answer.
Answer the following using Branch Diagrams using a set of completely made-up human characteristics below:
having a long middle toe (L) is dominant to having a short middle toe (l)
being quirky (Q) is dominant to being normal (q)
being calm (C) is dominant to being hyperactive (c)
liking french fries (F) is dominant to not liking them (f)
a) If a man who is homozygous for the following traits: long middle toe, quirky, hyperactive, and liking french fries; has a child with a woman who is heterozygous for a long middle toe, and being quirky and is homozygous for being hyperactive and not liking french fries, what would the odds that they would have a child with a long middle toe who is quirky, calm and likes french fries? Show your work.
b) Given the same parents, could they have a child who has a long middle toe and is quirky, calm, and doesn’t like french fries? Explain your answer.
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