G. Cahen has written: 'Nuclear engineering' -- subject(s): Nuclear engineering, Nuclear physics
Nuclear is any activity related to the nuclei of atoms as nuclear energy, nuclear fission, nuclear engineering, nuclear physics, etc.
All engineers start by taking physics courses. Physics provides the basics of mechnical, electrical, nuclear, optical, etc. engineering. Physics doesn't suggest to us how these principles can be used in everyday life. Engineering goes further than physics by applying the physics to various objects around us. Engineering is building things.
Physics, chemistry and engineering i think
We see nuclear physics, which is a branch of physics, that deals with nuclear energy.It could be argued that in a broader sense we need help from mechanical engineers, which is a branch of engineering, to pull it all off. Mechanical engineering is tested to its limits in the design of the plumbing systems of nuclear reactors, like the pressurized water reactor.
Clark Drouillard Goodman has written: 'The science and engineering of nuclear power' -- subject(s): Nuclear energy, Nuclear physics
For thermal energy it is thermodynamics, for mechanical energy it would be mechanics or mechanical engineering, for electrical energy electrical engineering, and for nuclear energy, nuclear physics. There doesn't seem to be one branch of science for energy as a whole.
Nuclear reactor kinetics is the branch of reactor engineering and reactor physics and control that deals with long term time changes in reactor fuel and nuclear reactors.
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).
Dr. Carlito Aleta was the former director and is the current consultant of the Philippine Nuclear Research Institute. His main contribution towards chemistry and science is his research into nuclear engineering. With a BSc in Chemical Engineering from the Central Colleges of the Philippines, Aleta has had a big influence on the studies of his subject. Nuclear engineering is an area of engineering that is based around the application of the breakdown, or fission, as well as the application of other sub-atomic physics and the fusion of atomic nuclei. Its studies are based on the principles of nuclear physics. Within the sub-field of nuclear fission, nuclear engineering focuses on the maintenance and interaction of systems and components. These may include nuclear power plants, nuclear weapons and nuclear reactors. The field of nuclear engineering also includes studies of medical and other applications of nuclear safety, radiation, nuclear fuel, heat and thermodynamics transport, other related technology (radioactive waste disposal) and the problems of nuclear proliferation. The nuclear branch of engineering is often broken down into four main professional areas. These areas are nuclear fission, nuclear medicine and medical physics, nuclear materials and nuclear fuel, and radiation measurements and dosimetry. Nuclear fission studies deal with the disintegration of an atom's nucleus into two separate, smaller elements. Common types include thermal fission, fast fission and spontaneous fission. Within medical physics there are a number of ways nuclear engineering plays an important role. Nuclear medicine, radiation therapy and x-ray machines are all closely related to the subject. Nuclear materials and nuclear fuels are used to obtain an increased efficiency and safety in nuclear plants. Nuclear engineers are keen to develop the radiation measurements that are available to improve imaging technologies. Dr. Carlito Aleta is part of the ever developing and experimenting branch of engineering that is nuclear engineering. His contributions are important for the understanding of the topic.
Dr. Carlito Aleta was the former director and is the current consultant of the Philippine Nuclear Research Institute. His main contribution towards chemistry and science is his research into nuclear engineering. With a BSc in Chemical Engineering from the Central Colleges of the Philippines, Aleta has had a big influence on the studies of his subject. Nuclear engineering is an area of engineering that is based around the application of the breakdown, or fission, as well as the application of other sub-atomic physics and the fusion of atomic nuclei. Its studies are based on the principles of nuclear physics. Within the sub-field of nuclear fission, nuclear engineering focuses on the maintenance and interaction of systems and components. These may include nuclear power plants, nuclear weapons and nuclear reactors. The field of nuclear engineering also includes studies of medical and other applications of nuclear safety, radiation, nuclear fuel, heat and thermodynamics transport, other related technology (radioactive waste disposal) and the problems of nuclear proliferation. The nuclear branch of engineering is often broken down into four main professional areas. These areas are nuclear fission, nuclear medicine and medical physics, nuclear materials and nuclear fuel, and radiation measurements and dosimetry. Nuclear fission studies deal with the disintegration of an atom's nucleus into two separate, smaller elements. Common types include thermal fission, fast fission and spontaneous fission. Within medical physics there are a number of ways nuclear engineering plays an important role. Nuclear medicine, radiation therapy and x-ray machines are all closely related to the subject. Nuclear materials and nuclear fuels are used to obtain an increased efficiency and safety in nuclear plants. Nuclear engineers are keen to develop the radiation measurements that are available to improve imaging technologies. Dr. Carlito Aleta is part of the ever developing and experimenting branch of engineering that is nuclear engineering. His contributions are important for the understanding of the topic.
ya i think so that he was a student of MIT. I think he did either nuclear physics or chemcal engineering