Final answer:
After meiosis I, the daughter cell is haploid, containing one set of chromosomes. After meiosis II, the daughter cell is a unique haploid cell with separated sister chromatids, resulting in four genetically distinct cells.
Step-by-step explanation:
After the first meiotic division, known as meiosis I, the daughter cell is haploid. This means that it contains one set of chromosomes, which is half the number of chromosomes of the original parent cell. However, at this point, each chromosome still consists of two sister chromatids. Meiosis I is thus referred to as a reduction division because it reduces the chromosome number by half.
After the second meiotic division, called meiosis II, the daughter cell is a unique haploid cell. During meiosis II, the sister chromatids are separated from each other, which creates four genetically unique haploid cells. This process is similar to mitosis in terms of mechanics, but differs in that the cells at the end are genetically distinct from one another because of the prior crossing over and because they contain only a single set of chromosomes.