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??
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).
The blue angles use F/A-18 Hornets See related question.
answer = 1 - probability you do get two green* * = binominal distribution f(k;n,p) = f(2;2,1/4)
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.
Mark F. Green was born in 1953.