Step-by-step explanation:
Assuming you meant to say "heterozygous pink wing color" instead of "homozygous pink wing color," a genetic cross between a homozygous wing color (WW) and a heterozygous pink wing color (Pp) would result in offspring with the following genotypes:
100% of the offspring would have WwPp genotype
The wing color gene and the pink eye gene are located on different chromosomes, so they will segregate independently during meiosis. This means that the wing color allele and the pink eye allele will assort randomly into the gametes.
The homozygous wing color parent (WW) can only contribute a W allele to the offspring, while the heterozygous pink wing color parent (Pp) can contribute either a P or a p allele with equal probability. Therefore, all of the offspring will be heterozygous for both wing color and pink eye color. They will have a white wing color (due to the dominant W allele) and a pink eye color (due to the presence of at least one P allele).
In summary, the genetic cross of WW and Pp will result in all offspring having the genotype WwPp, with a white wing color and pink eye color.