A minor summarized shouldn't pose any problems for you, but a Field Grade could have a negative effect on your ambitions.
First, take two green, leave M, and come back with F. Take blue F & leave green f there, then come back and take Blue m and leave there. Come back with blue F, take blue F and purple F and leave Blue F. Come back with purple F and take purple F and M.
hypergeom. f(1;13,3,1) * f(1;12,5,1)
* flag blue * forest green * fuchsia * forescent pink, yellow, green, etc.
Flaxen....You know...the little blue-green plant??
The blue angles use F/A-18 Hornets See related question.
f
answer = 1 - probability you do get two green* * = binominal distribution f(k;n,p) = f(2;2,1/4)
First, to restate the question in a more comprehensible form:Feather colour in parrots is determined by a single autosomal gene. The gene has two alleles, F and f. F causes blue feather colour and f causes yellow feather colour. F shows incomplete dominance over f (i.e, a heterozygote has a mixed phenotype, green feathers). If two green parrots, genotype Ff breed, what colour will the offspring be?This is a basic Mendelian cross. A similar example, with Punnet square, can be seen in the Wikipedia page for 'Mendelian inheritance', Figure 3. This page is a good starting point for understanding the principles involved.To directly answer the question, 25% of the offspring will be blue (FF), 25% yellow (ff) and 50% green (Ff).
G. F. Green was born in 1911.
G. F. Green died in 1977.
F. L. Green was born in 1902.
F. L. Green died in 1953.