Nuclear Engineering - Pennsylvania State University - Penn State Main Campus

Nuclear Engineering from Pennsylvania State University - Penn State Main Campus is a Campus Bachelor Nuclear Engineering degree that prepares you for a Engineering career. The overall educational objective of the Nuclear Engineering program is to help prepare our graduates to function effectively in the marketplace in a wide range of career paths in Nuclear Engineering. The technical part of the curriculum, emphasizes nuclear power engineering , which refers to complex systems used to generate electricity. Because of our strong educational and research emphasis in nuclear power engineering is strong, and because a shortage for this expertise exists in the industry, generally the industry values our graduates highly. We recognize that nuclear science, including nuclear security and non-proliferation, is an important growth area. We constantly assess and review the needs of our undergraduate students and their most frequent employers and use this feedback to consider revisions to our curriculum so that it is responsive to the needs of our constituents. Accordingly, we will endeavor to maintain and provide a curriculum that prepares our graduates such that: Within two to three years of graduation, we expect the majority of our B.S. graduates to: be working in industry, especially related to nuclear power engineering , be working in government agencies or national laboratories, be pursuing advanced degrees . We expect that our students will continue to develop professionally and establish themselves in their careers and in this thay may take the opportunity to further their education and training by attending graduate school or by pursuing other professional development. The first two years of the program stress fundamentals in mathematics, chemistry, physics, computer programming, and engineering sciences such as mechanics, materials, and thermodynamics. The last two years provide the breadth and depth in nuclear science, behavior of heat and fluids, reactor theory and engineering , and radiation measurement. The laboratory work includes experiments using the University\\\'s 1,000-kilowatt research reactor. Engineering design is incorporated in many courses from the freshman year to the senior year, but is particularly emphasized in the senior capstone design course, which integrates the critical elements of reactor theory, reactor engineering , safety considerations and economic optimization into a reactor design. Many graduates are employed by electric power companies that use nuclear power plants, or by companies that help service and maintain those plants. They use their knowledge of engineering principles, radioactive decay, interactions of radiation with matter, and nuclear reactor behavior to help assure that the power plants meet the demand for reliable, economic electricity while ensuring a safe environment. To do this, graduates must be problem solvers who can develop and use complex computer models and sophisticated monitoring systems, design systems to handle radioactive waste, determine if the materials in the plant are becoming brittle or corroded, or manage the fuel in the reactor to get the maximum energy from it. Other graduates work in industries that use radioactivity or radiation to detect problems or monitor processes. Jobs are also found in branches of the government as designers of the next generation of reactors for submarines, aircraft carriers, or space probes, or to manage and clean up contaminates wastes. They could also be involved with regulation of nuclear power or radiation uses, or in research to develop advanced technologies that will be used in next-generation power plants. Graduates who want to further their education in the fields of health physics, radiation biology, or nuclear medical applications find this degree to be a useful preparation. View more details on Pennsylvania State University - Main Campus . Ask your questions and apply online for this program or find other related Nuclear Engineering courses.