Want this question answered?
Nuclear Physics is a field of physics, yes. It involves interactions between atomic nuclei. Nuclear fission, nuclear fusion, nuclear decay (though in some ways that is more particle physics).
The aims of specialization in nuclear physics are the same as that for every field of work: to focus the efforts within a given field into solving the most pressing questions, concerns, and issues that are currently around. Some current specializations within nuclear physics include radioactive decay, nuclear fusion, nuclear fission, and the production of new elements and isotopes.
Mendelevium has not practical uses; it is important only for studies in nuclear physics and nuclear chemistry laboratories.
Bohrium hasn't practical use; it is only for nuclear physics research.
The department of nuclear physics and department of theoretical physics at Guindy campus that belong to university of Madras.
Any use for seaborgium, it is only important for research in nuclear physics.
Some of the uses for californium are: help starts nuclear reactors....!
There is really no use for roentgenium, but it is used for physics research, hope this helped some! (:
Atom has got a hard material packed at its centre, called nucleus. Its dimension is some 10,000 times smaller than that of the atom itself. If the branch of physics, deals with the nucleus and its constituents such as proton and neutron, then that branch is called as nuclear physics. In case of atomic physics, another branch in physics, which deals only with the electrons going around the nucleus of the atom. Their energy and the radiation produced due to the transition of electrons in various energy levels are dealt with in this branch atomic physics.
William Valentine Mayneord has written: 'The physics of x-ray therapy' -- subject(s): Radiotherapy, X-rays 'Some applications of nuclear physics to medicine'
The energy of atoms and molecules is the subject of chemistry. Nuclear physics and nuclear energy derive from the behaviour of the nucleus of the atom, particularly the ability of some nuclei (Uranium 235 and Plutonium 239) to fission and release energy.
Einsteinium is used only for nuclear physics research or as a raw material to obtain new heavier isotopes.