Final answer:
It is true that in each daughter cell chromosomes prepare for a second round of division in the context of meiosis. The two cells produced during the first meiotic division, meiosis I, will each undergo meiosis II, resulting in four unique haploid cells.
Step-by-step explanation:
True or False: In each daughter cell, chromosomes prepare for a second round of division. The statement could be considered true or false depending on the context of whether the process is mitosis or meiosis. However, given that the question likely refers to the preparation for a second division which is characteristic of meiosis, the statement can be considered true. During meiosis, after the first division (meiosis I), the daughter cells each go through a second division (meiosis II) without replicating their DNA again. During meiosis II, the sister chromatids are separated into individual chromosomes, resulting in four genetically unique haploid cells. The mechanics of meiosis II are similar to mitosis, and each cell prepares for this second division during a phase known as prophase II, where the nuclear envelope breaks down and the spindle begins to form again in each haploid daughter cell.