Answer:
Central part of human reproduction.
The sample space for an experiment is the set of all experimental outcomes.
Answer:
The answer is C: If a population has 10 individuals, and the genotype frequencies at a particular locus are freq(AA) = 0.25, freq(Aa)=0.5, freq(aa) =0.25, then this information alone is enough to allow us to conclude that this population is in Hardy-Weinberg equilibrium.
Explanation:
First of all it is important to mention that Hardy-Weinberg equilibrium can be reached when all factors that alter or modify the frequencies of the population are deleted or totally excluded. In this sense, those frequencies generated during the mating process do not vary regardless of mating is random. Genetic frequencies that can emerge during the process are AA, which is the dominant homozygote, Aa, which is the heterozygote and; aa, which is the recessive homozygote. These frequencies remain constant even when the number of members of the population is infinite, it means that even when the size of the population increases those frequencies are going to be equal. Having said that, these frequencies are in charge of defining the Hardy-Weinberg equilibrium.
The four rocky planets (Mercury, Venus, Earth and Mars) are much smaller than the four gaseous ones (Jupiter, Saturn, Uranus and Neptune). For example, the largest gas planet, Jupiter, is 318 times larger than the largest rocky planet, Earth. The explanation of this phenomenom is that the gaseous planets do not have a solid crust, therefore their materials are united in a less compact way, which amplifies their size.
