Answer:
Explanation:
Hardy Weinberg equation is presented below and describes that in a population the frequency of alleles ad genotypes will remain static or the same in the absence of evolutionary disturbances such as mutation, migration ( gene flow), natural selection and with the population large and random mating
p² +2pq + q²
where p represents the frequency of the dominant alleles
q represent the frequency of the recessive alleles
p² represent the frequency of the dominant homozygous genotype
q² represent the frequency of the recessive homozygous genotype
2pq represent the frequency of the heterozygous genotype
q² also represent the frequency of the recessive phenotype
(p² + 2pq) represent the frequency of the dominant phenotype
Answer:
Hardy Weinberg equilibrium states that in a population the amount of genetic variation remains constant from one generation to another generation in the absence of evolutionary disturbances.
They Hardy-Weinberg equation is:
p² +2pq + q² = 1
p = dominant alleles frequency (A)
q = recessive alleles frequency (a)
p² = dominant homozygous genotype frequency (AA)
q² = recessive homozygous genotype frequency (aa)
2pq = heterozygous genotype frequency (Aa)
p² and 2pq = dominant phenotype frequency (A)
q² = recessive phenotype frequency (a)
Note: A or a is for example in which A represent the dominant allele while a represent the recessive allele.
