Final answer:
Personal Protective Equipment should be tailored to specific hazards present in the work environment, which makes the statement true. Radiation exposure risks increase in professions involving X-rays and nuclear technology. Also, it's false that only visible light can cause the photoelectric effect, and false that wave-particle duality applies to macroscopic objects.
Step-by-step explanation:
The statement that PPE (Personal Protective Equipment) should be selected based upon the types of exposure that are anticipated is true. PPE is designed to protect workers from specific hazards that are present in their workplace. For instance, healthcare workers may require gloves, gowns, and masks to protect against bloodborne pathogens, while construction workers might need hard hats, safety glasses, and steel-toe boots to protect against head injuries and falling objects.
Concerning the increase in radiation exposure for a particular worker, jobs that involve X-rays, nuclear medicine, or radiation therapy are likely to cause an increase in exposure. Strict safety protocols and protective gear, such as lead aprons, are essential to minimize the workers' risks in these professions.
Moreover, it is false that visible light is the only type of electromagnetic radiation that can cause the photoelectric effect. Ultra-violet light and other types of radiation can also cause electrons to be ejected from the surface of a metal, depending on the energy of the photons involved.
Regarding wave-particle duality, it is false that it exists for objects on the macroscopic scale. Wave-particle duality is a concept that applies to quantum level entities, like electrons and photons, not to everyday, larger objects we interact with.