No allele can give an advantage
No disruptive circumstances must be present in random mating in a population for Hardy-Weinberg equilibrium to occur. Mating must happen randomly. No allele can give an advantage
Saturated
Yes. To be in equilibrium, the forces must not be perpendicular - they must point in opposite directions.
The distribution of alleles does not change from one generation to the next
The reaction quotient is the ratio of products to reactants not at equilibrium. If the system is at equilibrium then Q becomes Keq the equilibrium constant. Q = products/reactants If Q < Keq then there are more reactants then products so the system must shift toward the products to achieve equilibrium. If Q > Keq then there are more products than reactants and the system must shift toward the reactants to reach equilibrium.
mating must happen randomly
mating must happen randomly
mating must happen randomly
mating must happen randomly
mating must happen randomly
mating must happen randomly
No disruptive circumstances must be present in random mating in a population for Hardy-Weinberg equilibrium to occur. Mating must happen randomly. No allele can give an advantage
No disruptive circumstances must be present in random mating in a population for Hardy-Weinberg equilibrium to occur. Mating must happen randomly. No allele can give an advantage
All organisms must reproduce.
Mutation cannot occur. Apex
No disruptive circumstances must be present in random mating in a population for Hardy-Weinberg equilibrium to occur. Mating must happen randomly. No allele can give an advantage
1.The population must be infinitely large 2. There must be no mutations 3. Breeding amongst the population must be random 4. There must be no Immigration or Immigration There are more conditions so let me know if you need the rest Mutation cannot occur