Final answer:
The statement is true; following telophase, nuclear membranes reform and cytokinesis occurs, leading to the formation of two genetically identical daughter cells.
Step-by-step explanation:
The statement is true: after telophase, nuclear membranes reform around the separated sets of chromosomes, and cytokinesis follows to produce two daughter cells. During telophase, which is the final stage of the mitotic process, the once-segregated chromosomes begin to decondense, and nuclear envelopes form around each new set, resulting in the creation of two identical nuclei. Following this, cytokinesis commences, a process during which the cytoplasm divides, leading to the creation of two separate daughter cells, each enveloped by its own plasma membrane. In plant cells, a cell plate also forms during cytokinesis to generate new cell walls.