21. 2003 GRC On Nuclear Chemistry nuclear chemistry NUCLEAR STRUCTURE. June 1520, 2003 Colby-Sawyer College NewLondon, NH. Chair Robert Wadsworth Vice Chair Pawel Danielewicz. SUNDAY. http://www.grc.uri.edu/programs/2003/nuchem.htm

NUCLEAR CHEMISTRY NUCLEAR STRUCTURE June 15-20, 2003 Colby-Sawyer College New London, NH Chair: Robert Wadsworth Vice Chair: Pawel Danielewicz Supported By: ORTEC-Advanced Measurement Technology please contact Pat Sangsingkeow Canberra and Canberra Eurisys please contact Orren Tench (USA) or Marie Odile Lampert (Europe) Scionix (USA) Scionix (Europe) please contact Al Nagy (USA) or Paul Schotanus (Europe) John Caunt Scientific Ltd. please contact John Caunt SUNDAY 2:00 pm - 9:00 pm Arrival and check-in 6:00 pm Dinner 7:30 pm - 9:30 pm STRUCTURE OF NEUTRON RICH LIGHT/MEDIUM MASS NUCLEI (I) Discussion Leader: R.V.F. Janssens (Argonne National Laboratory) A. Gade (Michigan State University) Nuclear spectroscopy with fast exotic beams K. Asahi (Tokyo Institute of Technology / RIKEN) Measurements of nuclear moments for light unstable nuclei B. Fornal (Institute of Nuclear Physics, Krakow) New sub-shell closures at N=32 and N=34 in neutron rich nuclei G. Neyens (University of Leuven) Moments of light and intermediate mass nuclei in their isomeric and ground states MONDAY 7:30 am - 8:30 am Breakfast 9:00 am - 10:30 am STRUCTURE OF NEUTRON RICH LIGHT/MEDIUM MASS NUCLEI (II) Discussion Leader: H. Emling

22. Chemistry (C) Division Responsible for isotope and nuclear chemistry, biochemistry, health and environmental chemistry, and specialfunction lasers. http://www.lanl.gov/worldview/organization/profiles/c_profile.shtml

23. 2001 GRC On NUCLEAR CHEMISTRY: NUCLEAR STRUCTURE nuclear chemistry NUCLEAR STRUCTURE COLBYSAWYER COLLEGE NEW LONDON,NH June 17-22, 2001. Mark Riley, Chair Philippe Chomaz, Vice-Chair. http://www.grc.uri.edu/programs/2001/nuchem.htm

NUCLEAR CHEMISTRY: NUCLEAR STRUCTURE COLBY-SAWYER COLLEGE NEW LONDON, NH June 17-22, 2001 Mark Riley , Chair Philippe Chomaz , Vice-Chair Supported by: APTEC-NRC Inc. (Eurisys Mesures) please contact Ken Knight PerkinElmer Instruments (ORTEC) please contact Pat Sangsingkeow Scionix please contact Al Nagy X-ray Instrumentation Associates (XIA) please contact Michael Momayezi Sunday Evening - 7:30 p.m. The Production, Structure, and Chemistry of the Heaviest Elements Discussion Leader: George Dracoulis (ANU) Carola Laue (LLNL) The Chemistry of the Heaviest Elements Walter Loveland (Oregon State) New Results on the Synthesis of the Heaviest Elements Rolf-Dietmar Herzberg (Liverpool) Spectroscopy of Transfermium Nuclei Robert Janssens (ANL) The 2001 Long Range Plan for Nuclear Science in the US Monday Morning - 9:00 a.m. Tri-axiality in Nuclei: Chiral Symmetry Discussion Leader: Con Beausang (Yale) Stefan Frauendorf (Notre Dame) Left Handed Nuclei Daryl Hartley (UTK) Detailed Spectroscopic Measurements of the Chiral Twin Candidate Bands in 136Pm Chris Starosta (Stony Brook) Evidence for Chiral Bands in A~135 Nuclei Coffee Tri-axial Superdeformed Shapes and Wobbling Modes Discussion Leader: Paul Fallon (LBNL) Hanan Amro (Miss.State)

24. Radiochemistry/Nuclear Chemistry Section Radiochemistry/nuclear chemistry Section The NEUTRON ACTIVATION ANALYSISGROUP uses neutron activation analysis to expand the limits http://www.ornl.gov/divisions/casd/RNC_Section.html

Radiochemistry/Nuclear Chemistry Section The NEUTRON ACTIVATION ANALYSIS GROUP uses neutron activation analysis to expand the limits of trace element analysis in areas such as forensics, geochemistry, epidemiology, various aspects of high-purity materials production, and environmental science. In the environmental arena, in particular the analysis of trace elements in soil, the Group has developed methods with the appropriate quality control protocols that have passed regulatory scrutiny. It is also working with private industry to determine certain trace elements at sub-ppb levels in high-purity, high- performance materials. The key experimental resource is a pneumatic tube irradiation system at the ORNL High Flux Isotope Reactor that has the highest thermal neutron flux in the world. Another major capability is delayed-neutron counting that allows an inexpensive means of measuring uranium, and other fissionable radionuclides, at levels ranging from 10 ppb to near milligram quantities. Contact David Glasgow Phone (865) 574-4912 Fax (865) 574-4902 E-mail: glasgowdc@ornl.gov

25. Intro This institute has played a central role in the development of basic research in nuclear physics and nuclear chemistry, elementary particle physics, and astrophysics. http://efi.uchicago.edu/intro.html

EFI Home Related Links The Enrico Fermi Institute: An Introduction and History The Enrico Fermi Institute (EFI) plays a profound role within the University of Chicago and the international scientific community. Scientists at the institute have undertaken exciting and promising projects in many diverse areas. Founded at the end of World War II with a faculty including Nobel Laureates Enrico Fermi and Harold Urey, the institute has played a central role in the development of basic research in nuclear physics and nuclear chemistry, elementary particle physics, and astrophysics. Of the many Nobel Laureates associated with the institute, Subrahmanyan Chandrasekhar and James Cronin are currently in residence. Early research at the institute examined the nature of nuclear structure and the origin of cosmic rays, and also established carbon-14 dating for research in geophysics and archeology. Today these interdisciplinary traditions continue among the areas most actively pursued at the institute, including high-energy experimental physics, theoretical particle physics, quantum field theory, astronomy and high-energy astrophysics, cosmology, general relativity, solar and planetary research, geo- and cosmochemistry, electron and ion microscopy, and solar energy concentration. All members of the institute's faculty hold one or more joint appointments in the departments of physics, astronomy and astrophysics, chemistry, geophysical sciences, mathematics. The scientific staff of the institute also includes a number of senior scientists, senior research associates, research scientists, and postdoctoral research associates. Every year, a few outstanding young scientists from an international group of applicants are appointed as Enrico Fermi Fellows or as Robert R. McCormick Fellows. Many students, both graduates involved in thesis projects and undergraduates taking their first steps in research, also play an important role in the intellectual life of the institute.

26. SFU Chemistry Active areas of research include organic, inorganic, physical, and nuclear chemistry, chemical and structural biology, materials science and TRIUMF. News, faculty and staff phonelist, alumni, information on department, undergraduate and graduate studies, job opportunities and faculty profile. http://www.sfu.ca/chemistry/

27. CEM485: Modern Nuclear Chemistry Modern nuclear chemistry. Spring 2002. The goal of this course isto cover the basics of nuclear chemistry to allow participants to http://www.cem.msu.edu/~mantica/cem485.html

Modern Nuclear Chemistry Spring 2004 The goal of this course is to cover the basics of nuclear chemistry to allow participants to confidently apply this knowledge to events in everyday life. Such applications include imaging methods, cancer therapy, remote sensing, tracer methods, food preservation, nuclear energy, nuclear non-proliferation, and accelerator techniques for waste transmutation. The scientific framework will include atomic nuclei, nuclear properties, radioactive decay modes, interaction of radiation with matter, nuclear models, nuclear structure, nuclear reactions, and nuclear fission. Each detailed topic will be introduced by associating it with current processes or methods employing nuclear technology. Grading will be based on a combination of homework assignments, one midterm exam, a final research paper and presentation. and a final exam. For BA Chemistry majors, this course can substitute for the CEM 410 capstone required for graduation. Course Syllabus Lecture Schedule Reserved Reading Homework Assignments Selected Research Topics and Presentation Schedule Nuclear Science Web Resources Mid-term equation sheet MSU Dept. of Chemistry Home Page

28. Exploring ChemCom On The Internet and essential fatty acids is provided on this page. nuclear chemistry.DOE Office of Human Radiation Experiments Home Page Fermi National http://198.110.10.57/ChemCom/CCResources.html

Exploring ChemCom on the Internet List of Starting Points for ChemCom on the Internet Water and Toxic Waste About salt Salt,salt,salt and more salt American Water Works Association ATSDR - HazDat Database Conservation/Water-Related Internet Resources This page lists a number of other websites that give examples and discuss conserving water in the home,community, on farms and in industry Ground Water Institute http://web.frontier.net/SCAN/wip/hotlinks.html Major list of water related websites Oil Spill Public Information Center many listings which describe the Exxon oil spill of 1989 and what effects that it has today; includes photos Sea Shepherd Archive: Exxon Oil Spill Essay eyewitness description of Exxon oil spill TEXT-Trieve Online MSDS Resource Project The Boston Harbor Cleanup: The Deer Island Sewage Treatment Facility The Water Treatment FAQ The World-Wide Web Virtual Library: Fish This site contains links to many topics about fish. It includes information about efforts to protect waterways and save fish The World-Wide Web Virtual Library: Wastewater Engineering Water Resources essay - American Public Works Association (APWA) Metal Resources and Recycling NEVADA BUREAU OF MINES AND GEOLOGY SPECIAL PUBLICATION P-6 Ask-A-Geologist Metals - Aluminum Mill Seat Landfill ... Web-Elements Oil

29. Nuclear Chemistry Group At IUCF Brian is the freshest graduate of the nuclear chemistry group (November 2001). Heintends to work in the nuclear chemistry group this coming summer. http://nuchem.iucf.indiana.edu/people.html

Many-Body Nuclear Dynamics Group: Who's who? Faculty Prof. Romualdo deSouza desouza@indiana.edu 812-855-5815 (IUCF) 812-855-3767 (Chem.) A "young" yahoo. Prof. Vic Viola viola@indiana.edu 812-855-2878 (IUCF) 812-855-6537(Chem.) Our sage leader. Vic is widely known (and respected) not only for the science he has done (e.g. Viola fission systematics) but also for making the science we do understandable to the broader scientific commmunity as well as general public. Loves to ski too! Research Associates Dr. Brian Davin bdavin@indiana.edu Brian is the "freshest" graduate of the Nuclear Chemistry group (November 2001). As a "hardware junkie" he is putting his valuable skills to good use by helping to build HiRA while he hunts for a job. Dr. Sylvie Hudan hudan@iucf.indiana.edu Sylvie a recent addition to the group, joined us in Jan. 2002 directly from finishing her PhD in nuclear physics at University de Caen/GANIL in France. Prof. Ricardo Yanez yanez@iucf.indiana.edu Ricardo re-joined us in early March as a Visiting Scientist. He is on an "early sabbatical" from his faculty position at the Universidad de Chile. Welcome back Ricardo! Research Assistant Mr. Peter Sprunger

30. Nuclear Chemistry Group At IUCF Publications. de Souza Publications. Viola Publications. Preprints. E900aRestricted Access Area (for collaborators only). LASSA Restricted http://nuchem.iucf.indiana.edu/publications.html

Publications de Souza Publications Viola Publications Preprints E900a Restricted Access Area (for collaborators only) LASSA Restricted Access Area (for collaborators only) Ternary Fission Restricted Access Area (for collaborators only) Silicon Database Area (for collaborators only) Computer Database Area (for use by group members only)

31. Elsevier Science: Alerting Services Similar pages www.elsevier.nl/inca/publications/store/5/0/4/0/9/5/ Similar pages nuclear chemistrynuclear chemistry. In the 1950s, Professor Paul Kuroda of the Universityof Arkansas’ Department of Chemistry predicted that self http://www.elsevier.nl/locate/estoc/02365731

Elsevier Science Home Customer Support News News Start your News Search Catalogues 2003 Subscription Price List 2003 Books Price List New and Forthcoming Publications Authors Author Gateway The fast and efficient new service for authors Editors Information and Services for Editors Librarians STM e-Products Readers Journal Tables of Contents Contents Direct Newsletters and Other Services Careers Getting to know us Working with us Job Search Agents/Booksellers Published books Dispatch dates Journal Tables of Contents If you would like to view the table of contents of an Elsevier Science journal, you will need to access the Tables of Contents service for that specific journal. You can find a journal for which you'd like to see a table of contents by browsing through our publications or by doing a search . Additionally, you can search across the tables of contents of all our journals, by using the tables of contents search Once you've landed on the webpage of a journal, click on the Tables of Contents link in the left frame. For most journals, links are also present to the Author Index and Keyword Index Click on one of the links below to obtain a listing of journals within a specific subject area: Agricultural and Biological Sciences Arts and Humanities Chemistry and Chemical Engineering Computer Science ... Economics, Business and Management

32. William B. Walters, Nuclear Chemistry, UMCP William B. Walters. Professor nuclear chemistry Ph.D. University ofIllinois, 1964 BS Kansas State University, 1960. ww3@umail.umd.edu. http://www.chem.umd.edu/ane/walters/

William B. Walters Professor Nuclear Chemistry Ph.D. University of Illinois, 1964 B.S. Kansas State University, 1960 ww3@umail.umd.edu University of Maryland College Park, MD 20742-2021 phone 1-301-405-1801 - fax 1-301-314-9121 Chemistry Bldg. 091, Rm 1129 Awards and Honors Alexander von Humboldt Fellow, University of Mainz 2002 Who's Who in America American Chemical Society Award for Nuclear Chemistry, 2001 Chair College Park Senate, 1999-2000 1998 Sigma Xi Award for outstanding research, University of Maryland College Park University of Maryland General Research Board Fellow, University of Melbourne, 1990 John Simon Guggenheim Memorial Fellow, Oxford University, 1986-1987 White Paper Faculty List ANE Research Chem Home Research Interests Nuclear Chemistry Nuclear Structure and Decay Nuclear Astrophysics Nuclides far from stability Research Interests: Nuclear Chemistry

33. William B. Walters, Nuclear Chemistry, UMCP nuclear chemistry Nuclear Structure and Decay Nuclear Astrophysics Nuclides farfrom stability My research over the next several years will be focused on the http://www.chem.umd.edu/ane/walters/walterspaper.html

William B. Walters Research Interests Nuclear Chemistry Nuclear Structure and Decay Nuclear Astrophysics Nuclides far from stability My research over the next several years will be focused on the structure and decay of "drip-line" nuclides, that is, nuclides for which the least bound nucleon is about to "drip" off. The overall aim of this research is to uncover and examine the differences in nuclear structure and decay for nuclides in which the last nucleons are not tightly bound. Some of the work will have a major implication for nuclear astrophysics as noted below Work on the Fragment Mass Analyzer at Argonne National Laboratory The recent work in proton decay has proved a rich source of new insight into the location of the proton drip line and the kinds of decay observed for those nuclides. GAMMASPHERE has been used to determine the structure of a number of nuclides near and beyond the proton drip line. The first report of fine structure in proton decay has been published and a strongly prolate ground state has been established for Bi-185. New work will be designed to seek shorter-lived proton emitters, particularly those below Sn-100 that are thought to play a role in the rp-process in which some light isotopes are synthesized under explosive stellar conditions. Other possible studies include beta-delayed fission for heavy drip-line nuclides.

34. Chemistry In The News US Department of Energy’s Brookhaven National Laboratory, has won the AmericanChemical Society’s (ACS) 2002 Glenn T. Seaborg Award for nuclear chemistry. http://www.chemistry.bnl.gov/news/default.htm

Chemistry News Research Groups Research Staff Quick Personnel Info Seminars ... Previous Pages Year 2003 Brookhaven Town Honors Brookhaven Lab Chemist Diane Cabelli The Chemistry Department is pleased to welcome Alex Harris ... as the new Chemistry Department Chair, effective March 10, 2003. Charles Springer BNL Chemists’ ‘Shutter-Speed’ Concept May Improve MRI Detection of Stroke Yu-Shin Ding: Recognized For Sustained Contributions To BNL Science, Technology Symposium Honors First Chemistry Chair Dodson (BNLBulletin: page two) BNL Researchers, County, Civic Leaders Meet to Discuss Addiction Issues (BNL Bulletin: page three) Year 2002 Raymond Davis Jr. , a chemist at Brookhaven National Laboratory, won the 2002 Nobel Prize in Physics for detecting solar neutrinos, ghostlike particles produced in the nuclear reactions that power the sun. Davis shared the prize with Masatoshi Koshiba of Japan, and Riccardo Giacconi of the U.S. Lefty or Righty? PET Highlights "Mirror Image" Drug Differences

35. Richard L. Hahn American Chemical Society Award In nuclear chemistry, 2000 Brookhaven NationalLaboratory Research Development Award, 1997 American Nuclear Society http://www.chemistry.bnl.gov/sn/hahn.htm

Richard L. Hahn Senior Chemist GALLEX and SNO LENS Education and professional positions B.S. Brooklyn College, 1955; M.A. Columbia University, 1956; Ph.D. Columbia University, 1960 Brookhaven National Laboratory: Guest Jr. Research Associate, 9/58-3/60; Postdoctoral Research Associate, 3/60-5/62. Oak Ridge National Laboratory: Brookhaven National Laboratory: Research Collaborator, 9/86-1/87; Chemist, 2/87-10/87; Chemist, with tenure, 11/87-9/94; Senior Chemist, 10/94-present Visiting Scientist, Institut de Physique Nucléaire, Orsay, France, 1972-1973; Visiting Scientist, Lawrence Berkeley Laboratory, 1974-1980, 1984-1987; Visiting Scientist, Gesellschaft für Schwerionenforschung, Darmstadt, W. Germany, 1979; Visiting Scientist, Lawrence Livermore National Laboratory, 1984-1987; Visiting Scientist, Laboratori Nazionali del Gran Sasso, Assergi, Italy, 1987-present; Visiting Scientist, Sudbury Neutrino Observatory (SNO), Sudbury, Canada, 1996-present; Member of the International GALLEX Collaboration, 1986-1998; Member of the Canadian-American-British SNO Collaboration, 1996-present; Member of the International LENS Collaboration, 2000-present HONORs and Awards American Chemical Society Award In Nuclear Chemistry American Nuclear Society Radiation Industry Award , 1977 (for research on charged-particle activation analysis) Scholar in Residence, Southwestern University, Georgetown, TX, 1983

36. Nuclear Chemistry nuclear chemistry. nuclear chemistry deals with the nuclei of atomsbreaking apart. Atoms are continually undergoing decay. When http://www.shodor.org/unchem/advanced/nuc/

HOME Course Chapters Calculator Fundamentals Mathematics Review Basic Concepts Advanced Concepts ... Integration Techniques Section Tests Pre-test Post-test Useful Materials Glossary Online Calculators Redox Calculator Kinetics Arrhenius Calculator Thermodynamics Calculator Nuclear Decay Calculator ... Nomenclature Calculator Related Information Links Texas Instruments Calculators Casio Calculators Sharp Calculators Hewlett Packard Calculators ... Contact Webmaster Nuclear Chemistry Nuclear Chemistry deals with the nuclei of atoms breaking apart. Atoms are continually undergoing decay. When studying nucle ar chemistry, there is a typical format used to represent specific isotopes. Nuclear equations are typically written in the format shown below. There are 5 different types of radioactive decay. Alpha decay follows the form: Where A is the parent isotope (the atom being broken apart) B is the daughter isotope or the isotope formed. When an element is broken down in alpha decay it looses two neutrons and two (2) protons. This means that the name of the element will change as well, moving back two (2) places on the per iodic table. Alpha decay is is not very penetrating because the He atoms capture electrons before traveling very far. However it is very damaging because the alpha particles can knock atoms off of molecules .Alpha decay is the most common in elements with an atomic number greater than 83. Beta negative decay follows the form: The beta emission increases the atomic number by one (1) by adding one (1) proton. At the same time, one (1)

37. UNC Chemistry Fundamentals Nomenclature; Atomic Structure; Stoichiometry; AcidBase Chemistry; Kinetics;Equilibria; Redox reactions; Thermodynamics; nuclear chemistry. At The Very Least http://www.shodor.org/unchem/

HOME WebElements (Periodic Table) Course Chapters Mathematics Review Basic Concepts Advanced Concepts Section Tests Pre-test Post-test Useful Materials Glossary Links Texas Instruments Calculators Casio Calculators Sharp Calculators Hewlett Packard Calculators Calculators Units Conversion Lookup Nomenclature Redox Kinetics ... Contact Webmaster Welcome to the UNC-Chapel Hill Chemistry Fundamentals Program Department of Chemistry An Interactive Educational Exercise We welcome you to sign our guestbook! If needed, use the link under Useful Materials PLEASE READ THIS PAGE COMPLETELY! About the Chemistry Fundamentals Course This exercise is designed for anyone who wants an introduction or review of the fundamentals of chemistry that will be used in freshman level chemistry classes. This interactive course was used for the first time during the summer of 1997. The goal of the program at that point was to provide an introduction or a review to incoming freshman chemistry students on the basic mathematical skills that are required to be successful in freshman chemistry. In addition, the materials last year worked to introduce or review basic skills in the use of a calculator. Evaluations from last year's materials suggested that, while the mathematics and calculator sections were useful, one of the most appreciated benefits of the materials was the review of basic high school chemistry. This year's program works to build on that observation. While maintaining the reviews of mathematics and calculator fundamentals, we have significantly expanded the review sections of high school chemistry. In addition, we have added a number of "advanced" sections on the use of numerical methods in chemistry.

38. OSU Nuclear Chemistry Group This is the homepage of the nuclear chemistry group in Oregon State University. Howto contact us. Research Summary. 2001 Progress Report. New Results. http://oregonstate.edu/dept/nchem/

Current Research Projects Course Information OSU Home Page Chemistry Department Home Page Last Update: July 19, 2002

39. Erik's Chemistry: Nuclear Chemistry nuclear chemistry Back To Erik's Chemistry Main Page Nuclear EquationsMass number is conserved in a nuclear change. Electric charge http://members.tripod.com/~EppE/nuclear.htm

Nuclear Chemistry Back To Erik's Chemistry: Main Page Nuclear Equations Mass number is conserved in a nuclear change. Electric charge is conserved in a nuclear change. Particle types Name Symbol Standard Equation Format Mass # Charge # Alpha He Beta-minus e Beta-plus e Neutron n n Half-Life : the length of time required for one-half of the atoms of a radioactive sample to decay. (Number of atoms left) = (( n ) * (original # of atoms) n = the number of half lives elapsed. Fission : break up of a large nucleus into two smaller nuclei creating a higher binding energy. Fusion : two or more smaller nuclei combining to form a larger nucleus with a higher binding energy. Synthetic Elements : made by bombarding plutonium with neutrons or other large elements with smaller elements. Example of nuclear reaction: Es + He Md + 2 n Types of nuclear reactions: Alpha Decay U He + Th Decay: Beta Emission (Beta-minus) Ra e + Ac Decay: Positron Emission Ru e + Tc K-Capture (capture beta-minus) Rb + e Kr + X-ray + X-ray back to top Back To Erik's Chemistry: Main Page Any comments will be appreciated. Please e-mail me at eepp@altavista.net

40. Nuclear Chemistry Gordon Conference 2000 2000 Gordon Research Conference on. nuclear chemistry. ColbySawyerCollege New London, New Hampshire, USA June 18-22, 2000 Online http://www.nscl.msu.edu/~lynch/nuclear.htm

2000 Gordon Research Conference on NUCLEAR CHEMISTRY Colby-Sawyer College New London, New Hampshire, USA June 18-22, 2000 Online Registration: http://www.grc.uri.edu/ Chair: William Lynch Vice Chair: Mark Riley E-mail: lynch@nscl.msu.edu Phone: Fax: Address: NSCL Michigan State University East Lansing, MI 48824-1321 USA TOPICS · Fusion, Fission and the Production of Exotic Nuclides · Collective Flow and the Equation of State of Strongly Interacting Matter · Equilibration and Transport Phenomena · Nuclear Reactions at the Extremes of Isospin Asymmetry · Multifragmentation and the Nuclear Liquid-Gas Phase Transition · Particle Production · Particle-Particle Correlations · The Search for the Quark-Gluon Plasma · Nuclear Processes in the Cosmos Program Travel to the Conference

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