Yes, use the Hardy-Weinburg equilibrium equation.
No, organisms die.Evolution is the change in allele frequency over time in a population of organisms.
population
Recessive genes are replaced by dominant genes over time and unfavorable genes die out.
Development as in ontogeny?None.Evolution is the change in allele frequency over time in a population of organisms. Phylogeny.Ontogeny is the development of a single organisms by it's genome and in the environment it develops in.
Yes. Without variation in organisms for natural selection to choose from there would be no change in allele frequency over time in the population of organisms under discussion. This is the definition of evolution, so without change over time, no evolution.
Competition between organisms (Apex)
No, organisms die.Evolution is the change in allele frequency over time in a population of organisms.
Stabilizing selection occurs when organisms with intermediate phenotypes are selected for.
Evolution is the change in allele frequency over time in a population of organisms.
Evolution is change over time in a population of organisms. Formal and impressive to teacher definition is this; ' Evolution is the change in allele frequency over time in a population of organisms. '
Is a population. Consider the definition of evolution.Evolution is the change in allele frequency over time in a population of organisms.
Evolution is the change in allele frequency over time in a population of organisms. Rats too!
Evolution is the change in allele frequency over time in a population of organisms. It is a fact.
Evolution is the change in allele frequency over time in a population of organisms.
Evolution is the change in allele frequency over time in a population of organisms.
Change over time in populations of organisms. Or, more formally; the change in allele frequency over time in a population of organisms.
By the definition. Evolution is the change in allele frequency over time in a population of organisms.