Final answer:
Touching two polarized insulating objects together does not cancel the polarization. This statement is false. Polarization is not simply negated by contact but requires a path for charges to move away, such as grounding.
Step-by-step explanation:
The statement two insulating objects are polarized implies that each object has areas of positive and negative charge separated within it. The question is whether touching the two objects together will cancel the polarization. This is false. When two polarized objects are brought into contact, their charges do not simply cancel out. Instead, charges may redistribute somewhat, but the objects will largely retain their own polarization. To depolarize the objects, you would need to allow them to come into contact with a path for the charges to move away freely, like grounding them.