Allele frequency is stable
yes , because the peacocks are in the weingberq equilobriumk :* suck me babe
explain three factors that work against the Hardy-Weinberg equilibrium?
allele frequency does not change. Apex
Allele frequency is stable.
The phenotype frequency does not change.
Genetic Drift
I am a meteorologist. An equilibrium, as it pertains to meteorology, most likely applies to a pressure equilibrium - or equalization of pressure. "Equilibrium" means balance, or balanced.
There is no evolution. Random mating, no immigration/emigration, or, in short, Hardy-Weinberg equilibrium holds.
Increase at first. However, once their population gets too large then their food sources will become scarce and disease is likely to spread quickly. Their numbers may drop again due to starvation and sickness.
a loss of habitat due to human development or natural disasters
A large population residing on an isolated island is more likely to reach Hardy-Weinberg equilibrium.
Genetic Drift
Nonrandom mating.
I am a meteorologist. An equilibrium, as it pertains to meteorology, most likely applies to a pressure equilibrium - or equalization of pressure. "Equilibrium" means balance, or balanced.
There is no evolution. Random mating, no immigration/emigration, or, in short, Hardy-Weinberg equilibrium holds.
the U.S government is most effecrive when its executive, legislative, and judicial branches are all working in equilibrium. Alcohol impairs your equilibrium, and you are more likely to fall when intoxicated.
it is either sexual reproduction, dynamic equilibrium, cellular respiration, or internal regulation. i have a feeling it is sexual reproduction or dynamic equilibrium.
Increase at first. However, once their population gets too large then their food sources will become scarce and disease is likely to spread quickly. Their numbers may drop again due to starvation and sickness.
a decrease in habitats due to human development or natural disasters
a loss of habitat due to human development or natural disasters
Those whose color was similar to that of the color of the bark would be more likely to survive because of their new camoflauge. They are more likely to survive because of hiding from predators, and the population will swing back towards the camoflauge similar to the bark of the tree (natural selection)
Equilibrium is only found in a saturated solution, where the dissolved species and the undissolved species are in equilibrium with each other. In a dilute solution there is nothing that is undissolved, and so there is no equilibrium, and by definition a supersaturated solution is out of equilibrium and essentially has too much stuff dissolved in it (it will eventually return to equilibrium and some of the dissolved material will precipitate out).