Please look in the image for solution:
I know the answer is (a) but I don’t understand how to get it 28) Consider...
Consider a population of 100 individuals and the frequency of the A allele is 0.6 and the frequency of the a allele is 0.4. If the following fitness values for each genotype are applied to the next generation, what will be the frequency of the A allele in the next generation? wAA = 1 wAa = 0.25 waa = 0.25 Answer Choices: a. .81 b. .64 c. .92 d. .73 e. .54
i'm
not sure which of these are right, but this is what I was
guessing
An allele exists at a frequency of 0.7 in its population. Assuming the population is in Hardy-Weinberg equilibrium, what will its frequency be in the next generation? A.0.7 B. 1.0 003 0.0.21 E: 0.42 > Moving to the next question prevents changes to this answer. Question 5 of 9 Which of the following is a deterministic force of population change? O A. Random mating. B....
please answer 11-19...
thank you!!
also calculate the frequencies for each genotype and
phenotype!!
frequencies for the two loci in the three populations. Allele Locus PGM a Bayonne 0.1 0.8 0.1 Stamford 0.0 0.9 0.1 New Le 0.0 1.0 0.0 b с PGI-2 a 0.7 0.3 0.0 1.0 0.6 0.4 b 11. Using Hardy-Weinberg assumptions, which population should have the highest frequency of heterozygotes at PGI-2: a. Bayonne b. Stamford c. New Lebanon d. can't say from the data given...
The answers are shown, but how do you get the answer to
part IV ONLY. Please show all work and explain
NAME: 13. Consider a species that is divided into two subpopuiations that are each individually in Hardy- Weinberg equilibrium with the following genotype frequencies FIAA) FIAa) Flaa) 049 0.42 0.09 0.04 0.32 0.64 i. Assuming that the two subpopulations are of equa! size, calculate the overall genotype frequencies in the global population. Use your answers to complete the blanks...
I posted this question before but no answer I need to submit in
4 hours, please help.
Although the following scenario is hypothetical, it is based on actual facts. Sickle cell anemia is an inherited form of anemia. Those with sickle cell anemia do not have enough healthy red blood cells to adequately carry oxygen to all the cells in their body. Normal red blood cells are flexible and round, and can easily move through the blood vessels. However, in...