Which of the following is NOT a condition for Hardy-Weinberg Equilibrium?

According to the Hardy-Weinberg equilibrium, if no unfavorable influences exist, genetic variation in a population will remain stable from one generation to the next. Furthermore, because genotype and allele frequencies are in equilibrium when mating is random in a large population with no disruptive influences, the rule predicts that they will remain constant.
• When a population reaches Hardy-Weinberg equilibrium for a gene, it is not evolving, and allele frequencies do not alter over time.
• The five fundamental Hardy-Weinberg assumptions are that there is no mutation, random mating, no gene flow, an infinite population size, and no selection.
• A gene's population may evolve (the allele frequencies of the gene may change) if the presumptions are not true for that gene.

What does the Hardy-Weinberg equilibrium measure?

What is the name of the process in which the most favourable traits are passed onto the next generation?

Which of the following cannot introduce new alleles into a population's gene pool?

All of the alleles found in a population.

The type of genetic drift that follows the colonization of a new habitat by a small group of individuals is called __________.

Genetic drift is a change in the allele frequency of a population due to ______________.

In what kind of population is the random genetic drift most pronounced?

What genotypes of future children are feasible when a heterozygous tall pea plant crosses with a short pea plant?

What does heterozygous mean?

Which of the following statements about the founder effect is correct?

______________ refers to the process by which certain species migrate from their original location to a new location, hence changing the allele frequency.

Which of the following is not a factor influencing the Hardy Weinberg principle?

How many factors affect the Hardy Weinberg principle?

The notation p and q of the Hardy Weinberg equation represent the ________ of a diploid organism.