Answer :

If the population mates randomly, the frequency of genotype DD in the next generation will remain unchanged.

If the population mates at random, the frequency of genotype DD in the next generation can be predicted using the Hardy-Weinberg equilibrium equation. According to this equation, the frequency of the DD genotype in the next generation [tex](p^2)[/tex] can be determined by squaring the frequency of the D allele in the current generation (p).

Conversely, the frequency of the dd genotype [tex](q^2)[/tex] would be determined by squaring the frequency of the d allele (q). The frequency of the heterozygous genotype (Dd) would be given by 2pq, where p and q are the frequencies of the D and d alleles, respectively. Assuming random mating does not change the allele frequencies, if the frequency of the DD genotype in the current generation is denoted as [tex]p^2[/tex], then in the next generation, it will remain the same as [tex]p^2[/tex].

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The complete question is:

If the population mates at random, then in the next generation, the frequency of genotype DD will be What?

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