Nuclear chemistry is a subfield of chemistry dealing with radioactivity, nuclear processes and nuclear properties. It is the chemistry of radioactive elements such as the actinides, radium and radon together with the chemistry associated with equipment (such as nuclear reactors) which are designed to perform nuclear processes. This includes the corrosion of surfaces and the behaviour under conditions of both normal and abnormal operation (such as during an accident). An important area is the behaviour of objects and materials after being placed into a waste store or otherwise disposed of. * the study of the chemical effects resulting from the absorption of radiation within living animals, plants, and other materials. The radiation chemistry controls much of radiation Biology as radiation has an effect on living things at the molecular scale, to explain it another way the radiation alters the biochemicals within an organism, the alteration of the biomolecules then changes the chemistry which occurs within the organism, this change in biochemistry then can lead to a biological outcome. As a result nuclear chemistry greatly assists the understanding of medical treatments (such as cancer radiotherapy) and has enabled these treatments to improve. * the study of the production and use of radioactive sources for a range of processes. These include radiotherapy in medical applications; the use of radioactive tracers within industry, science and the environment; and the use of radiation to modify materials such as polymers. * the study and use of nuclear processes in non-radioactiveareas of human activity. For instance, nuclear magnetic resonance (NMR) spectroscopy is commonly used in synthetic organic chemistry and physical chemistry and for structural analysis in macromolecular chemistry.
A nuclear power plant does not require a lot of space to operate. Nuclear power does not emit carbon into the air. Nuclear power does not pollute the air with smoke particles. Nuclear power is not dependent on the weather.
nice answer
Only in nuclear physics and nuclear chemistry laboratories.
Only in nuclear chemistry and nuclear physics laboratories.
Mendelevium has not practical uses; it is important only for studies in nuclear physics and nuclear chemistry laboratories.
Well first start of nuclear bombs has more common in physics that chemistry. Sense Chemistry is really assosiated with elemnts while the atom and it spliting is more assosiated with physics. The answer is easy in order to produce an atomic bomb you need uranium or plutonium which is part of chemestry. The fission process is more physic related
Mendelevium has not practical uses; it is important only for studies in nuclear physics and nuclear chemistry laboratories.
Nuclear chemistry is a branch of chemistry related to chemical processes involved in nuclear reactions.
Nuclear chemistry is the chemistry involved in nuclear processes; in a large sense may be considered also the chemistry of radioactive elements. Sometimes radiation chemistry (radiochemistry) is considered a chapter of nuclear chemistry.
The object of nuclear chemistry is the study of radioactive materials, nuclear wastes, chemical reactions in a nuclear reactor etc.
Nuclear chemistry study nuclear materials and elements, isotopes, chemical processes involved in nuclear energy, some radioactivity applications, etc.
nuclear chemistry
Chemists specialized in this branch of chemistry.
This is the essentially the chemistry of fission products.
Traditional chemistry deals mainly with the interaction of elements, compounds, and energy. Nuclear chemistry studies the nucleus of atoms, and how it can split, decompose, and interact with energy.
The one difference that nuclear chemistry has from the other branches is its study of the nucleus (core) of the atom. Nuclear chemistry will deal with how the nucleus can split, absorb and release energy as radiation, and decompose to form different elements.
Examples: - chemistry of water in nuclear reactors - separation of new artificial elements - radiochemical polymerization
Chemistry
Only for researches in nuclear physics/nuclear chemistry.