Ask Question
BiologyBiology
5 October, 00:40

In a random sample of a population of shorthorn cattle, 73 animals were red (CRcR), 63 were roan, a mixture of red and white (CRC), and 13 were lele freauencies of C and C", and determine whether thepopulation is white (C'C). Estimate the al in Hardy-Weinberg equilibrium. 0.36; because the population 1s arge and a random sample was chosen, the 0.64, Cr population is in equilibrium. 0.7, C 0.3; the genotype ratio is n what would be predicted from these frequen - cies and the population is not in equilibrium. CR 0.7, C0.3; the genotype ratio is what would be predicted from these frequencies and the population is in equilibrium. С" 1.04, 0.44; the allele frequencies add up to greater than 1 and the population is not in equilibrium. You cannot estimate allele frequency from this information.

+3
Answers (1)
  1. 5 October, 00:47
    0
    Answer

    CR = 0.7, Cr = 0.3, the genotype ratio is what would be predicted from these frequencies and the population is in equillibrium since the sum of both the frequencies is equal to 1 which is a condition for hardy weinberg equilibrium.

    Explanation:

    n a random sample of a population of shorthorn cattle, 73 animals were red (CRcR), 63 were roan, a mixture of red and white (CRC), and 13 were lele freauencies of C and C", and determine whether thepopulation is white (C'C). Estimate the al in Hardy-Weinberg equilibrium. 0.36; because the population 1s arge and a random sample was chosen, the 0.64, Cr population is in equilibrium. 0.7, C 0.3; the genotype ratio is n what would be predicted from these frequen - cies and the population is not in equilibrium. CR 0.7, C0.3; the genotype ratio is what would be predicted from these frequencies and the population is in equilibrium. С" 1.04, 0.44; the allele frequencies add up to greater than 1 and the population is not in equilibrium. You cannot estimate allele frequency from this information.

    CR = 0.7, Cr = 0.3, the genotype ratio is what would be predicted from these frequencies and the population is in equillibrium since the sum of both the frequencies is equal to 1 which is a condition for hardy weinberg equilibrium.
Know the Answer?
Not Sure About the Answer?
Find an answer to your question ✅ “In a random sample of a population of shorthorn cattle, 73 animals were red (CRcR), 63 were roan, a mixture of red and white (CRC), and 13 ...” in 📘 Biology if you're in doubt about the correctness of the answers or there's no answer, then try to use the smart search and find answers to the similar questions.
Search for Other Answers
You Might be Interested in
Describe some of the effects that dilated blood vessels will have on blood pressure. Describe some of the effects that expanded blood vessels will have on blood pressure.
Answers (1)
Medical terminology deconstruct the term concussion
Answers (2)
What is the general relationship between global earthquake activity and plate boundaries?
Answers (1)
Part b - how can someone with a y chromosome develop as a female?
Answers (1)
What dissolves unwanted substances in the cell
Answers (1)
New Questions in Biology
Name two roles of parenchyma cells and briefly explain how these cells are specialized for these roles
Answers (1)
Is s. aureus gram-positive or gram-negative?
Answers (1)
Markus has put off doing his homework so that he can play video games. his mother starts nagging him to do his homework. markus turns off the video game and does his homework to stop his mother from nagging. in this example, the nagging is a:
Answers (1)
What are several adaptations that leaves have undergone? Why do leaves have adaptations in different parts of the world?
Answers (1)
Which of the following properties of carbon give it particular importance to life?
Answers (1)
Home » Biology » In a random sample of a population of shorthorn cattle, 73 animals were red (CRcR), 63 were roan, a mixture of red and white (CRC), and 13 were lele freauencies of C and C", and determine whether thepopulation is white (C'C).
Sign Up Forgot Password?