Respuesta :
Answer:
Frequency of p [tex]= 0.684[/tex]
Frequency of p [tex]= 0.316[/tex]
Number of individuals with homozygous dominant (AA) [tex]= 47[/tex]
Number of individuals with heterozygous (Aa)[tex]= 43[/tex]
Number of individuals with homozygous recessive (aa) [tex]= 10[/tex]
Explanation:
Out of 100 people, 10 have albino skin (aa)
So, the frequency of homozygous recessive individuals [tex](q^{2})[/tex] is [tex]\frac{10}{100} = 0.1[/tex]
Now, q will be
[tex]= \sqrt{q^{2} } = \sqrt{0.1} \\= 0.316[/tex]
As per Hardy Weinberg's equation -
[tex]p + q = 1[/tex]
Substituting the value of q in above equation, we get -
[tex]p + 0.316 = 1p = 1 -0.316\\p = 0.684[/tex]
Now the frequency of homozygous dominant (AA) will be
[tex]p^{2} = 0.684^{2} \\= 0.467[/tex]
Hence, out of 100 people [tex]0.467 * 100 = 46.7 or 47[/tex] people are homozygous dominant (AA)
Like wise out of 100 people [tex]0.1 * 100 = 10 [/tex] people are homozygous recessive (aa)
As per As per Hardy Weinberg's equation-
[tex]p^{2} + q^{2} + 2pq = 1\\[/tex]
Substituting the values in above equation, we get -
[tex]0.467 + 0.316 + 2pq = 1\\2pq = 1 -( 0.467+ 0.1)\\2pq = 0.433[/tex]
So, out of 100 people [tex]0.433 * 100 = 43.3 or 43[/tex] people are heterozygous (Aa)
