The Discipline, being part the third

The theoretical aspect of nuclear science is fundamental in a nuclear engineering career. Fusion power is a current but yet unaccomplished speculation. The highly theoretical concept requires the brightest nuclear engineers to develop methods of containment for the extreme temperatures and pressures necessary for fusion to occur. The creation of a self-sustaining fusion reactor is bound to attract new queries-- for instance, whether ways to refuel the extremely hazardous reactors exist. To be able to solve problems of such caliber, a nuclear engineer must be well-versed in the complexity of nuclear theories.

In order to handle their everyday job necessities, nuclear engineers must undergo proper education. Most nuclear engineering programs require bachelor degrees, but higher level M.A. programs are offered. Typical courses include nuclear physics, calculus, chemistry, and quantum theory. Certain curriculums include biology and social impact courses to better equip the students for the environmental and political pressures they can face as part of the nuclear society. Institutions that offer nuclear engineering studies are located worldwide; a few nuclear engineering schools in the United States include Georgia Institute of Technology, Massachusetts Institute of Technology, Oregon State University, and University of California, Berkeley. Few universities (namely, sixteen) offer the specific programs in nuclear engineering in the United States. The same schools also offer graduate studies in the field.