Final answer:
Mendel's crosses of purple and white-flowered pea plants showed that the purple flower trait is dominant. F₁ offspring were all purple because they were heterozygous (Pp), but in the F₂ generation, white flowers reappeared due to the law of segregation where some offspring were homozygous recessive (pp).
Step-by-step explanation:
When Mendel crossed purple-flowered pea plants with white-flowered pea plants, he observed that all the F₁ offspring had purple flowers. This phenomenon occurred because the purple flower trait is dominant over the recessive white flower trait. These F₁ plants had one purple flower allele (P) and one white flower allele (p), making them heterozygous (Pp). However, when these F₁ purple-flowered plants were crossed together, the F₂ generation exhibited both purple and white flowers. This happened because each F₁ plant could pass either a P or p allele to its offspring. The appearance of white flowers in the F₂ generation can be explained by the law of segregation, which states that the two alleles for a trait separate during the formation of gametes. Therefore, the white flower trait did not really skip a generation, it was just not expressed in the F₁ because the dominant purple allele masked it. In the F₂ generation, when some offspring received a recessive allele (p) from each parent, they displayed white flowers as they were then homozygous recessive (pp).