Is the human population in Hardy-Weinberg equilibrium?
No, the population is not in a state of Hardy-Weinberg Equilibrium because the allele frequencies are not the same as the preceding generation.
Which of the following is not a condition for Hardy-Weinberg equilibrium?
Which of the following is NOT a condition of the Hardy-Weinberg equilibrium? Mutations cannot occur in a population. Mating within a population must be random.
Which statement is a reason that modern human populations never reach Hardy-Weinberg equilibrium?
Which statement is a reason that modern human populations never reach Hardy-Weinberg equilibrium? Evolution rarely occurs in human populations. Mating is random in human populations.
What is a possible explanation for why a population may not be in Hardy-Weinberg equilibrium?
What is a possible explanation for why a population may not be in Hardy-Weinberg equilibrium? Evolution is occurring on a trait in the population. When we say “populations evolve, not individuals,” what does this mean? Individuals cannot change their genetic makeup, but genotype frequencies in a population can change.
Does the Hardy-Weinberg principle describe a real population or a hypothetical population Why?
§ The Hardy-Weinberg theorem describes a hypothetical population that is not evolving. § In real populations, allele and genotype frequencies do change over time. ○ Natural population can evolve at some loci, while being in Hardy-Weinberg Equilibrium at other loci. ○ Evolution can happen for one trait at a time.
What are the assumptions of Hardy-Weinberg equilibrium quizlet?
The Hardy-Weinberg model makes the following assumptions: no selection at the gene in question; no genetic drift; no gene flow; no mutation; random mating.
What are the five assumptions that the Hardy-Weinberg formula uses to calculate traits within a population?
A low rate of mutations would help keep a population in equilibrium. The five assumptions of Hardy-Weinberg equilibrium are a large population size, no natural selection, no mutation rate, no genetic drift, and random mating.