Answer:
The Genotypes of TLTL = 0.16
The Genotypes of TLTS = 0.48
The Genotypes of TSTS = 0.36
This population fully abide by the Hardy-Weinberg equation.
p² + 2pq + q² =1
0.16 + 0.48 + 0.36 = 1
Explanation:
According to the question,
Genotype Phenotype No. of individuals in population
TLTL Long 60
TLTS Medium 40
TSTS Short 100
The TL allele count = 60 × 2
= 120
But, TL is also present in TLTS
∴ The total TLTL allele count is = 120 + 40 × 1
= 120 + 40
= 160
Total individual = ( 60+40+100)
= 200
Total allele count = 200 × 2
= 400
∴ p = 160/400
= 0.4
We know that, according to the Hardy-Weinberg equation, the expected frequencies of the genotypes should add up to 1.
p + q = 1
or, 0.4 + q = 1
or, q = 1 - 0.4
∴ q = 0.6
We know that, according to the Hardy-Weinberg equation, the expected frequencies of the genotypes should add up to 1.
p² + 2pq + q² =1
⇒ (0.4)² + 2× (0.4)×(0.6) + (0.6)² = 1
⇒ 0.16 + 0.48 +0.36 = 1
