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3 tall:1 short
There was a 3:1 ratio of tall plants to short plants.
out of total 1064 plants in f2 generation,787 plants were tall & 277 plants were dwarf.Means 3:1 ratio was obtained.
They differed both in genotype and phenotype. Mendel's F1 generation were all heterozygous Tall. Where his F2 generation had genotype frequencies as follows: 1TT:2Tt:1tt and the phenotype frequency 3tall:1short This is assuming you are referring to his experiments using height as the factor. His other experiments had similar results just replace all the uppercase T's with the dominant allele and the lowercase t's with the recessive trait.
The traits were recessive.
Mendel's finding showed that phenotypic traits in pea plants were inherited in discrete packages and at predictable frequencies. Mendel proposed two laws the first being the law of independent segregation in which a parent plant passed only one copy of a trait to the offspring. This law was later understood with the discovery of meiosis. His second law was the Law of independent assortment stated that these traits met randomly in the offspring. The combination of these laws in real life gave rise to the set ratios that Mendel observed in life ie 3:1 ratio for a single trait.
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There was a 3:1 ratio of tall plants to short plants.
100% heterozygous pea plants. Showing the dominant trait
Mendel used the mathematics in his experiments. He found the ratio of the pea plants who were tall to who were short if every generation and gave the law of inheritance.
3:1
(Apex Learning) 3:1.
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According to Mendel's experiments as recorded in the text cited, among 929 F2 plants, 705 had red flowers and 224 had white flowers, resulting in a ratio of 3.15:1.