The study of high-energy, electromagnetic radiation, which includes x-rays, is called atomic spectroscopy.
The study of nuclear radioactivity and decay is called nuclear physics.
For the study of electromagnetic radiation of energies below x-rays you have:
UV - UV spectroscopy
Visible Light - gaffer
Infra-red - infrared spectroscopy
Microwave - microwave spectroscopy
Radio - amateur broadcaster
mutagens
diversity among organisms
radioactive
Both beta rays and gamma rays are the products of radioactive decay and are the result of changes in atomic nuclei. X-rays can be generated by using high voltage to accelerate electrons and slam them into a metal target, so they might be said to be non-radioactive.
no
nothing
Many objects in the universe emit rays, such as stars emitting light rays, radioactive elements emitting gamma rays, and X-ray machines emitting X-rays. Rays can also be emitted from phenomena like solar flares, cosmic rays, and radioactive decay.
X-rays, ultraviolet light, and radioactive substances that can change the chemical nature of DNA are all classified as mutagens. These agents can induce changes in the DNA sequence, leading to mutations that can have various biological consequences.
Yes they are. Nearly all kinds of electromagnetic radiation are emitted during radioactive decay
The SI unit of x-rays is the becquerel (Bq), which measures the activity of radioactive sources.
The study of x-rays
Radiology is the medical term meaning the study of x-rays and other imaging studies.