Yes, there is. Nuclear chemists are those chemists with "extra" physics knowledge and an interest and a willingness to work with radioactive materials. Much of their work is in radiation Biology, as they operate with chemical tracers (that have nuclear tags) in following chemical and biochemical processes. And there is a large volume of work being done in nuclear medicine to treat cancer and some other medical conditions. The nuclear chemist is on scene. There is more to this, and a link is provided below to get you through the door and facilitate your own investigation.
Radioactivity is a concept rooted in physics rather than chemistry. It involves the spontaneous decay of atomic nuclei, leading to the emission of radiation such as alpha, beta, or gamma particles. While radioactivity has implications in various fields including chemistry, its fundamental principles are based on nuclear physics.
Atomic physics and nuclear physics.
It doesn't. That's not chemistry any more, it's physics.
Nuclear physics, nuclear chemistry, study of superheavy elements, technology of accelerators, improvement of measuring devices for physics, etc.
contribution of chemistry to physics
Only for researches in nuclear physics/nuclear chemistry.
Only for researches in nuclear physics/nuclear chemistry.
Only in nuclear physics/nuclear chemistry laboratories.
Mendelevium is important for researches in nuclear physics and nuclear chemistry.
Only in nuclear physics and nuclear chemistry laboratories.
Nobelium is only an object of studies in nuclear physics and nuclear chemistry laboratories.
Only in nuclear physics and nuclear chemistry laboratories, in USA or Russia.
Only in nuclear physics and nuclear chemistry laboratories, in USA or Russia.
Only in nuclear physics and nuclear chemistry laboratories, in USA or Russia.
Nobelium is only an object of studies in nuclear physics and nuclear chemistry laboratories.
Ernest Ruthrford was a physicist, specialist in nuclear physics; but also with contributions in nuclear chemistry/radiochemistry.
Radioactivity is a concept rooted in physics rather than chemistry. It involves the spontaneous decay of atomic nuclei, leading to the emission of radiation such as alpha, beta, or gamma particles. While radioactivity has implications in various fields including chemistry, its fundamental principles are based on nuclear physics.