21. Nuclear Engineer, GS-840 nuclear engineer, GS840 Basic Requirements for all grades, GS-5 and above Degree professional engineering. http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126

22. Physics Today October 2002 A good deal of nuclear engineering was applied to a large heliumcooled nuclear He demonstrated how nuclear engineering and nuclear science at the http://www.physicstoday.com/vol-55/iss-10/p42.html

document.writeln(AAMB7); Search advanced search Table of contents Past issues Links to advertisers ... Virtual Journals Feature Article Eugene Wigner, Nuclear Engineer Wigner led the design of the Hanford nuclear reactors and founded a school to teach reactor physics to people working in industry. Alvin M. Weinberg In addition to being a theoretical physicist of the first rank, Eugene Wigner (1902-95) was the founder of nuclear engineering. He led the group that designed the first very high-powered nuclear reactors, which were built at Hanford, Washington, for the production of the isotope plutonium-239. I first met Wigner (see portrait, Figure 1 ) in the winter of 1942. At the time of our first meeting, he was commuting between his home in Princeton, New Jersey, and the University of Chicago, where the plutonium part of the Manhattan Project was being centralized. I have since been very closely associated with him, and he and I collaborated on The Physical Theory of Neutron Chain Reactors (U. of Chicago Press, 1958).

23. Summary Report Conduct research on nuclear engineering problems or apply principles and theory of Sample of reported job titles Engineer, nuclear engineer, Nuclear http://online.onetcenter.org/link/summary/17-2161.00

Related Links OnLine Help Home Occupation Quick Search: Partially updated 2003 Summary Report for: 17-2161.00 - Nuclear Engineers Conduct research on nuclear engineering problems or apply principles and theory of nuclear science to problems concerned with release, control, and utilization of nuclear energy and nuclear waste disposal. Sample of reported job titles: Engineer, Nuclear Engineer, Nuclear Reactor Engineer, Nuclear Licensing Engineer, Nuclear Design Engineer, System Engineer, Resident Inspector, Criticality Safety Engineer, Generation Engineer, Nuclear Process Engineer View report: Summary Details Custom Tasks Knowledge ... Related Occupations Tasks Analyze available data and consult with other scientists in order to determine parameters of experimentation and suitability of analytical models. Conduct tests of nuclear fuel behavior and cycles and performance of nuclear machinery and equipment, in order to optimize performance of existing plants. Design and develop nuclear equipment such as reactor cores, radiation shielding, and associated instrumentation and control mechanisms. Design and direct nuclear research projects in order to discover facts, to test or modify theoretical models, or to develop new theoretical models or new uses for current models.

24. Nuclear Engineering - Wikipedia, The Free Encyclopedia nuclear engineering is the practical application of the principles of nuclear physics From here, a nuclear engineer takes courses dealing with radiation http://en.wikipedia.org/wiki/Nuclear_engineering

Nuclear engineering From Wikipedia, the free encyclopedia. Nuclear engineering is the practical application of the principles of nuclear physics and the interaction between radiation and matter . This field of engineering includes the design, analysis, development, testing, operation and maintenance of nuclear fission systems and components, specifically, nuclear reactors nuclear power plants and/or nuclear weapons . The field can also include the study of nuclear fusion medical applications of radiation, nuclear safety, heat transport, nuclear fuels technology, nuclear proliferation , and the effect of radioactive waste or radioactivity in the environment Contents Overview Specialties Fission Fusion ... edit Overview Nuclear engineering is the study of engineering the transfer of useful work using knowledge of the atomic nucleus gleaned from nuclear physics which researches the theories about the forces that bind the nucleus. A nuclear engineer is first trained in basic physics followed by quantum mechanics which then leads into atomic physics and nuclear physics. From here, a nuclear engineer takes courses dealing with radiation protection and detection. Whereas nuclear fusion specialization echoes nuclear physics, nuclear fission and nuclear medicine are very much with us today. The USA gets about 20% of its electricity from nuclear power, and medicine would be medieval without nuclear medicine. From

25. Career Profiles - Nuclear Engineering Career specific profiles of young employees working in engineering and computer related fields such as cellular, communication, electrical, environmental, http://www.graduatingengineer.com/careerprofiles/nuclear-eng.html

Choose Topic Home Resume Help Regional Job Markets Interview Help Company Profiles Salary Negotiation Entry Level Salaries Your Discipline Career Profiles Ask Dr. Job Intl. Insights Tutorials Quotes Industry Focus Minority Issues Women in Tech Organizations Graduate School Features Archive GECC Magazine Advertising Site Map Full Site Feature Articles Minority Issues Women In Technology Career Profiles Companies Your Discipline Ask Dr. Job International Insights Graduate Schools Industry Focus Job Markets Organizations Pure Procrastination About GE Career Profiles Resources Career Profiles Organizations Minority Issues Women in Technology ... Quotations Articles Feature Articles Higher Education Graduate School The Job Hunt Company Profiles Regional Job Markets Entry Level Salaries Search Jobs Graduating Engineer in Print About GE Magazine This Month in Print Nuclear Engineer Nuclear science is a variable field, with applications ranging from power generation to medical diagnosis and treatment. While many people may think of nuclear weapons or reactors when they think of this field, nuclear engineers deal with issues and applications that go far beyond the stereotypes. Nuclear engineers can be found doing research, addressing security and proliferation issues, supervising plant operations and designing waste storage facilities. Some, like the U.S. Department of Energy's Colette Brown and Brent Heilman of the Argonne National Laboratory, work in management positions, dealing with political and strategic issues related to nuclear energy, such as plutonium isotope production and nonproliferation issues. On the more technical and traditional side are positions in nuclear power plants, which produce approximately 22% of the electricity in the United States, and the design of advanced nuclear power systems, such as those used by the space program.

26. The Future Of Your Discipline - Nuclear Engineering Quick, degreespecific reports written by industry experts. Who is hiring graduates from your discipline? How will your degree deteriorate in value over the http://www.graduatingengineer.com/futuredisc/nuclear.html

Choose Topic Home Resume Help Regional Job Markets Interview Help Company Profiles Salary Negotiation Entry Level Salaries Your Discipline Career Profiles Ask Dr. Job Intl. Insights Tutorials Quotes Industry Focus Minority Issues Women in Tech Organizations Graduate School Features Archive GECC Magazine Advertising Site Map Full Site Feature Articles Minority Issues Women In Technology Career Profiles Companies Your Discipline Ask Dr. Job International Insights Graduate Schools Industry Focus Job Markets Organizations Pure Procrastination About GE The Future of Your Discipline Resources Career Profiles Organizations Minority Issues Women in Technology ... Quotations Articles Feature Articles Higher Education Graduate School The Job Hunt Company Profiles Regional Job Markets Entry Level Salaries Search Jobs Graduating Engineer in Print About GE Magazine This Month in Print Blasting Off to Saturn and Bombarding Brain Tumors by Charlotte Thomas Compared to other disciplines, the number of nuclear engineering grads might be small, but don't let that fool you. The field is generating a lot of energy, encompassing technologies that are as vast as the two-story, robotic Cassini spacecraft that recently took off to Saturn or as minute as the pinpoint application of neutrons to tumors. Such is the spectrum of employment possibilities for BS nuclear engineers and non-nuclear engineers, particularly mechanical, electrical and chemical grads. In fact, the nuclear power industry only hires 10% to 15% nuclear engineers, the rest come from these other disciplines.

27. Nuclear Engineering & Radiological Sciences :: Academics The Department of nuclear engineering and Radiological Sciences at the University of Michigan offers graduate programs leading to the Master of Science (MS) http://www-ners.engin.umich.edu/academics/grads/grdprogram.shtml

NERS: Academics September 24, 2005 NERS Directory Site Areas Home Academics Research People ... Publications Quick Links College of Engineering University of Michigan Other Related Items Graduate Program Home Department History About the Program Degrees Offered ... Admissions Graduate Program The Program The Department of Nuclear Engineering and Radiological Sciences at the University of Michigan offers graduate programs leading to the Master of Science (MS) and Doctor of Philosophy (PhD) degree in Nuclear Engineering and Radiological Sciences or Nuclear Science, the Master of Science in Engineering (MSE) in Nuclear Engineering and Radiological Sciences degree, and the professional degree of Nuclear Engineer Admission to the Program Students who apply for admission to graduate study in Nuclear Engineering and Radiological Sciences should have a bachelor's degree from a recognized engineering program. The Nuclear Science Program is available to those with a bachelor's degree in physics, chemistry, or mathematics. Curricula of the two programs are similar. Introductory campus visits are offered to highly-qualified prospective graduate students upon receipt of an application for admission.

28. Nuclear Engineering & Radiological Sciences :: Academics nuclear engineering and Radiological Sciences are diverse fields and can lead to Our undergraduate program in nuclear engineering has been educating the http://www-ners.engin.umich.edu/academics/ugrads/whatcan.shtml

NERS: Academics September 24, 2005 NERS Directory Site Areas Home Academics Research People ... Publications Quick Links College of Engineering University of Michigan Other Related Items Undergraduate Program Program Home What is NERS? Scope Job opportunities? ... Declaring NERS Back Undergraduate Program More What can our graduates do? The answer is just about anything. Nuclear Engineering and Radiological Sciences are diverse fields and can lead to many different career paths. Below are some examples of areas where our graduates can find work. Power Industry Nuclear Medicine Health Physics, and Radiation Safety Materials Research and Design and Development ... General Electric , and . Our undergraduate program in nuclear engineering has been educating the very best of these engineers since 1965. Nuclear Medicine, Health Physics, and Radiation Safety Materials Research and Design and Development Nuclear engineering and radiological science are also concerned with the physical effect of radiation on engineering materials, both to understand and ameliorate the deleterious effects of radiation on engineering structures, and also to use these effects to improve materials and optimize them for specific applications. Radiation Detection and Measurement Nuclear engineers and radiological scientists are also interested in the development of more advanced radiation detection systems, and in the development of imaging technologies based on these. One use of these technologies is in robots whose "eyes" see by radiation rather than light. Active research programs and courses within the Department of Nuclear Engineering and Radiological Science address these exciting areas of engineering.

29. Nuclear Engineer DOT Code 015.061-014 Industry Profess. Kin nuclear engineer. DOT Code 015.061014. Industry profess. kin. Conducts research into problems of nuclear energy systems; designs and develops nuclear http://www.stepfour.com/jobs/015061014.htm

Click Here for Details Nuclear Engineer DOT Code: 015.061-014 GOE: 05.01.03 STRENGTH: S GED: R6 M6 L5 SVP: 8 DLU: 77

30. Nuclear Engineers nuclear engineers still face many challenges, however. nuclear engineers find ways to use nuclear energy (produced when atoms split or, potentially, http://www.collegeboard.com/csearch/majors_careers/profiles/careers/106798.html

@import "/common/shared/css/p3_import.css"; @import "/common/student/css/import.css"; Jump to page content help store Site Colleges students parents educators CollegeBoard.com ... Pay for College Find a College Where to Start Campus Life College Visits Tools College Search Compare Colleges Sign Up My Organizer Create a free account. User Name: Password: Help Home Find a College Profiles Career: Nuclear Engineers Print Full Article Email Article Education To become an engineer, you'll need a bachelor's degree. Related Majors Aerospace Engineering Astronomy Environmental Engineering Nuclear Engineering ... Physics Related Careers Civil Engineers Engineering and Science Managers Engineering Technicians Nuclear Medicine Technologists ... Physicists and Astronomers Did You Know? Nuclear power plants supply 20 percent of the electricity in the U.S. Career: Nuclear Engineers U.S. Department of Energy Nuclear engineers still face many challenges, however. What should we do with the radioactive waste created by nuclear reactors? How can we prevent accidents at nuclear reactors? If you become a nuclear engineer, you can join in the search for solutions. Nuclear engineers find ways to use nuclear energy (produced when atoms split or, potentially, when they fuse) and radiation.

31. Learndirect - Engineer: Nuclear nuclear engineer is a generic term for a variety of engineers using nuclear In nuclear engineering, it is accepted that gaining professional status is a http://www.learndirect-advice.co.uk/helpwithyourcareer/jobprofiles/profiles/prof

engineer: nuclear The work Nuclear engineer is a generic term for a variety of engineers using nuclear technology; they may be mechanical, electrical or chemical engineers, or nuclear physicists. Typical roles may be: a reactor analyst monitoring heat transfer a project engineer working on fuel usage a safety analysis engineer identifying hazards an information systems engineer working on control systems. Engineers in the nuclear industry design and implement technological solutions for nuclear power stations, the pharmaceutical industry or the military. The power generation industry is the largest employer with engineers working in fuel reprocessing, decommissioning, waste management, radiological protection and safety, and station maintenance and performance. Engineers within the industry usually work on small projects and supervise mechanical and electrical craftspeople, their role includes: specifying new equipment developing operating instructions determining radiological content creating disposal plans through decommissioning taking responsibility for security and safety making site visits attending meetings and giving presentations.

32. Students - The Engineering Alphabet: Nuclear Engineering THE ENGINEERING ALPHABET nuclear engineerING nuclear engineers design, develop, and control plants that use nuclear energy for fuel and medical purposes. http://www.engineeringk12.org/students/so_you_want_to_be_an_engineer/the_enginee

THE ENGINEERING ALPHABET: NUCLEAR ENGINEERING Nuclear engineers design, develop, and control plants that use nuclear energy for fuel and medical purposes. Some nuclear engineers are busy working on a nuclear-powered spacecraft that will travel to Mars. FOR MORE INFORMATION: THESE ARE SOME OF THE MOST POPULAR ENGINEERING FIELDS: Bioengineering/Biomedical Computer/Software Metallurgy and Materials Mineral and Mining ... Mineral and Mining American Society for Engineering Education 1818 N Street, N.W., Suite 600 Washington, DC 20036-2479 Web: www.asee.org Telephone: (202) 331-3500 Site Map Contact ASEE.org

33. Bill Garland's Nuclear Engineering Page This is a site for students and others interested in nuclear engineering as it UNENE, the University Network of Excellence in nuclear engineering, http://engphys.mcmaster.ca/~garlandw/text.htm

Home Page Nuclear Engineering (Bill Garland) , Department of Engineering Physics McMaster University Nuclear Engineering home url: http://nuceng.mcmaster.ca document.write("This page updated on " + document.lastModified) FAQ What's Help Hello, hello! Wot's this, then? This is a site for students and others interested in Nuclear Engineering as it relates to the program in the Department of Engineering Physics, McMaster University. Enjoy. Listen to a short introduction to the site (1.0Mb exe file). Help - Have a quick look to get oriented and to find helpful tips on using this site, including how to contact me . Suggestions and comments are welcome. But before you do, check out the site FAQ page. Perhaps your question has already been answered. FAQ - Frequently asked questions for this site. Careers page - links to full-time and summer career and job information, including at our own reactor - Jobs, jobs, jobs!!! Now contains articles relating to supply and demand. Downloads Related to the Nuclear Industry.

34. Nuclear Engineering: Information From Answers.com nuclear engineering nuclear engineering is the practical application of the principles of nuclear physics and the interaction between radiation and. http://www.answers.com/topic/nuclear-engineering-2

showHide_TellMeAbout2('false'); Business Entertainment Games Health ... More... On this page: Wikipedia Mentioned In Or search: - The Web - Images - News - Blogs - Shopping nuclear engineering Wikipedia nuclear engineering Nuclear engineering is the practical application of the principles of nuclear physics and the interaction between radiation and matter . This field of engineering includes the design, analysis, development, testing, operation and maintenance of nuclear fission systems and components, specifically, nuclear reactors nuclear power plants and/or nuclear weapons . The field can also include the study of nuclear fusion medical applications of radiation, heat transport, nuclear fuels technology, nuclear proliferation , and the effect of radioactive waste or radioactivity in the environment Overview Nuclear engineering is the study of engineering the transfer of useful work using knowledge of the atomic nucleus gleaned from nuclear physics which researches the theories about the forces that bind the nucleus. A nuclear engineer is first trained in basic physics followed by quantum mechanics which then leads into atomic physics and nuclear physics. From here, a nuclear engineer takes courses dealing with radiation protection and detection.

35. ENC Online: ENC Features: Classroom Calendar: Exploring Careers: Nuclear Enginee A brief introduction about nuclear engineering is followed by short How were nuclear engineers involved there? Determine the nature of your own source http://www.enc.org/features/calendar/unit/0,1819,162,00.shtm

Skip Navigation You Are Here ENC Home ENC Features Classroom Calendar Search the Site More Options Don't lose access to ENC's web site! Beginning in August, goENC.com will showcase the best of ENC Online combined with useful new tools to save you time. Take action todaypurchase a school subscription through goENC.com Classroom Calendar By Category By Month ... Ask ENC Explore online lesson plans, student activities, and teacher learning tools. Find detailed information about thousands of materials for K-12 math and science. Read articles about inquiry, equity, and other key topics for educators and parents. Create your learning plan, read the standards, and find tips for getting grants. Exploring Careers: Nuclear Engineering (Grades 7-12) February 27 Graphic: Ji Sun An National Engineers Week, February 19-25 Engineering is the art of applying scientific and mathematical principles, experience, judgment, and common sense to create or develop new products that benefit people and solve problems. Engineers search for better, less expensive ways to use the forces and materials of nature to meet tough challenges as people encounter them. There are many fields of work within engineering; one of the smaller branches is nuclear engineering. You flick a switch in your house, and the lights go on. It seems like magic, but somewhere in your state or region there is a power plant that provides that electricity for a fee. And chances are that some of those power plants are fueled by nuclear energy, which means that nuclear engineers would have been involved in the design and development of the plantand are involved with the control and maintenance of it. The generation of electricity is just one area in which nuclear engineers work. Others specialize in the use of nuclear technology for medical diagnosis. Still others are busy working on a nuclear-powered spacecraft that will travel to Mars!

36. Nuclear Engineering Beginning Fall 2005, nuclear engineering will be accepting students into nuclear engineering Program Tentative Schedule of Distance Education Courses http://www.engr.psu.edu/cde/nuclear_engineering.htm

37. Job Listing For Nuclear Engineering Jobs Jobs Listing for nuclear engineering Jobs. Jobs Listing. http://www.thinkjobs.com/think.nsf/jobs1?openform&Start=1&Count=1000&ExpandView&

38. Nuclear Engineer Jobs - Nuclear/Safety Basis/Development - SW, USA Job Search -- nuclear engineer Nuclear/Safety Basis/Development - SW, USA, Engineering Jobs Computer Jobs Tech Jobs Online Career Search Atlanta Georgia Florida. http://www.thinkjobs.com/think.nsf/JONumAlpha/32377?Opendocument

39. Vacancy No. 2005/026 - Nuclear Engineer (P-4) Under the guidance of a unit leader, the nuclear engineer advises and assists the Section Head on matters related to the handling, treatment, http://recruitment.iaea.org/vacancies/p/2005/2005_026.html

Vacancy Notice No. 2005/026 Position and Grade: Nuclear Engineer (P-4) Organizational Unit: Waste Technology Section Division of Nuclear Fuel Cycle and Waste Technology Department of Nuclear Energy Duty Station: Vienna Issue Date: 7 April 2005 Application Deadline: 6 June 2005 Type/Duration of Appointment: Fixed term , 3 years (subject to a probationary period of 1 year) CCOG Code: 1.B.13 Organizational Setting The Waste Technology Section is located in the Division of Nuclear Fuel Cycle and Waste Technology in the Department of Nuclear Energy. The main functions of the unit dealing with waste predisposal management in the Waste Technology Section are to develop and implement the programme on the technologies, practices and policies on matters pertaining to the handling, treatment, conditioning and storage of radioactive waste. Assignment Under the guidance of a unit leader, the Nuclear Engineer advises and assists the Section Head on matters related to the handling, treatment, conditioning and storage of low and intermediate level radioactive waste from nuclear fuel cycle facilities, nuclear power plants and nuclear applications. In particular, the incumbent:

40. MIT Course Catalogue: Department Of Nuclear Science And Engineering This is an exciting time to study nuclear engineering society s interest in, Future nuclear engineering research goals are focused on developing new http://web.mit.edu/catalogue/degre.engin.nucle.shtml

School Overview Degrees Offered Aeronautics and Astronautics Biological Engineering Division ... Hole Department of Nuclear Science and Engineering The department's new view of nuclear science and engineering is manifest in our creation of a unified core curriculum for all our graduate students and our newly developed discipline-based undergraduate program. Once the core material is mastered, students can select from a wide variety of applications through more specialized subjects. Most of the applications fall within three main subcategories: nuclear power, plasma physics and fusion technology, and the broad area of nuclear science and technology. In keeping with MIT's longstanding contributions to the well-being of the nation, the department aims to educate the individuals who will make the key scientific and engineering advances in these societally important fields. Each of the three basic research areas involves substantial faculty and student activities and is apportioned as follows: nuclear power, 40 percent; nuclear science and technology, 40 percent; and plasma physics and fusion technology, 20 percent. A synopsis of these activities follows.

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