1. Visionlearning Nuclear Chemistry nuclear chemistry This lesson is an introduction to nuclear chemistry. It reviews alpha, beta and gamma decay reactions, the concept of halflife, http://www.visionlearning.com/library/science/chemistry-2/CHE2.3-nuclear_chem.ht

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2. INCT Home Page Warszawa http://www.ichtj.waw.pl/

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3. The Living Textbook Of Nuclear Chemistry The Living Textbook of nuclear chemistry is an attempt to gather on a single website a number of supplemental materials related to the study and practice of http://livingtextbook.oregonstate.edu/

The Living Textbook of Nuclear Chemistry The Living Textbook of Nuclear Chemistry is an attempt to gather on a single website a number of supplemental materials related to the study and practice of nuclear chemistry. Among these materials are: Some audio/video tapes and textual material relating to the history of nuclear chemistry. Links to modern compilations of data of use to the student and practicing professional. Links to modern nuclear and radiochemistry courses whose content might be of interest. Selected articles on nuclear and radiochemistry. ... Acknowledgments Note: This site is best viewed with Macromedia Flash Player and Quicktime Player. RealPlayer is also supported.

4. History Of Nuclear Chemistry Click the following links to watch videos relating to nuclear chemistry. These videos range from 216 KB to 1.5 MB, and require Quicktime to play. http://livingtextbook.oregonstate.edu/history/

History of Nuclear Chemistry Click the following links to watch videos relating to nuclear chemistry.  These videos range from 216 KB to 1.5 MB, and require Quicktime to play. A Brief Note about Plutonium by Glenn Seaborg (20 sec) One sentence on how Pu was a means of extending the boundary of the periodic table. Plutonium and Why It Was Kept a Secret (2 min) Glenn Seaborg talks about the discoveries of Actinium and Plutonium and the reasons for keeping the discovery of Pu a secret. The Prediction of the Actinide Series by Glenn Seaborg (2 min, 19 sec) Glenn Seaborg discusses the initial failure to chemically identify elements 95 and 96 (Americium and Curium) and later describes his prediction of the actinide series. Introduction from Bob Silva (1 min, 26 sec) Bob Silva from the Lawrence Radiation Laboratory in Berkeley describes Glenn Seaborg's prediction of an actinide series with elements 102 and 103 (Nobelium and Lawrencium) discovered by this laboratory. The HILAC or Heavy-Ion Layer Accelerator (2 min, 16 sec)

5. SpringerLink - Publication www.kluweronline.com/issn/02365731 More results from www.kluweronline.com ACS Division of nuclear chemistryCharles D. Coryell Award for Undergraduate Research in nuclear chemistry The Undergraduate Awards Committee of the division of nuclear chemistry and http://www.kluweronline.com/issn/0236-5731/contents

Articles Publications Publishers Home Publication Journal of Radioanalytical and Nuclear Chemistry Publisher: Akad©miai Kiad³, co-published with Springer Science+Business Media B.V., Formerly Kluwer Academic Publishers B.V. ISSN: 0236-5731 (Paper) 1588-2780 (Online) Subject: Chemistry and Materials Science Physics and Astronomy Issues in bold contain content you are entitled to view. Volume 266 Number 1 / October 2005 Volume 265 Number 3 / August 2005 Number 2 / July 2005 Number 1 / June 2005 Volume 264 Number 3 / May 2005 Number 2 / May 2005 Number 1 / March 2005 Volume 263 Number 3 / February 2005 Number 2 / January 2005 Number 1 / January 2005 Volume 262 Number 3 / January 2005 Request a sample Number 2 / January 2004 Number 1 / January 2004 Volume 261 Number 3 / January 2004 Number 2 / September 2004 Number 1 / January 2004 Volume 260 Number 3 / January 2004 Number 2 / September 2004 Number 1 / January 2004 Volume 259 Number 3 / January 2004 Number 2 / September 2004 Number 1 / January 2004 Volume 258 Number 3 / December 2003 Number 2 / October 2003 Number 1 / September 2003 Volume 257 Number 3 / September 2003 Number 2 / August 2003 Number 1 / July 2003 Volume 256 Number 3 / June 2003 Number 2 / May 2003 Number 1 / April 2003 Volume 255 Number 3 / March 2003 Number 2 / February 2003 Number 1 / January 2003 Volume 254 Number 3 / December 2002 Number 2 / November 2002 Number 1 / October 2002 Volume 253 Number 3 / September 2002 Number 2 / August 2002 Number 1 / July 2002 Volume 252

6. Summer School In Nuclear Chemistry Undergraduate Fellowships in nuclear chemistry Radiochemistry. Visitor since 10/3/2003. The Division of nuclear chemistry and Technology of the American http://www.cofc.edu/~nuclear/nukess.html

Visitor since 10/3/2003 The Division of Nuclear Chemistry and Technology of the American Chemical Society sponsors summer schools in nuclear and radiochemistry funded by the U.S. Department of Energy . These six week summer schools in 2006 will be held from June 18 to July 29 at: San Jose State University, San Jose, CA Brookhaven National Laboratory, Upton, NY AWARD DETAILS Fellowships include all tuition, transportation, housing, some food, textbooks, laboratory supplies, and laboratory manuals. Six semester-units of transferable academic credit will be awarded by San Jose State University and the State University of New York at Stony Brook. 2006 Nuclear Summer School Application forms. Completed forms must be received by February QUALIFICATIONS Candidates should be undergraduate chemistry or physics majors who will be entering their junior or senior year in the fall of 2005. Preference will be given to entering seniors. Applicants must be U.S. citizens or resident aliens. No previous experience in nuclear science is necessary. SELECTION The Summer Schools are limited to 24 students, 12 at each campus. Announcement of awards will be in early Spring 2005.

7. ScienceDirect - Inorganic And Nuclear Chemistry Letters - List Of Issues www.sciencedirect.com/science/journal/00221902 nuclear chemistrynuclear chemistry affects many aspects of our lives everyday. Explore the links in this modules to learn all about nuclear chemistry. http://www.sciencedirect.com/science/journal/00201650

Register or Login: Password: Athens/Institution Login Quick Search: within This Journal All Journals All Full-text Sources Inorganic and Nuclear Chemistry Letters Bookmark this page as: http://www.sciencedirect.com/science/journal/00201650 Incorporated into Polyhedron Volumes 11 - 17 Volume 17, Issues 9-12 , Pages 265-309 (1981) Volume 17, Issues 7-8 , Pages 201-264 (1981) Volume 17, Issues 5-6 , Pages 129-199 (1981) Volume 17, Issues 3-4 , Pages 65-128 (1981) Volume 17, Issues 1-2 , Pages 1-63 (1981) Volume 16, Issues 9-12 , Pages 515-587 (1980) Volume 16, Issue 8 , Pages 469-513 (1980) Volume 16, Issue 7 , Pages 407-467 (1980) Volume 16, Issue 6 , Pages 329-405 (1980) Volume 16, Issue 5 , Pages 251-328 (1980) Volume 16, Issue 4 , Pages 171-250 (1980) Volume 16, Issue 3 , Pages 109-170 (1980) Volume 16, Issue 2 , Pages 57-107 (1980) Volume 16, Issue 1 , Pages 1-56 (1980) Index to Volumes 16-17 , Pages iii-xxxi (1980 - 1981) Volume 15, Issues 11-12 , Pages 379-439 (1979) Volume 15, Issues 9-10 , Pages 317-377 (1979) Volume 15, Issues 7-8 , Pages 271-316 (1979) Volume 15, Issues 5-6

8. Nuclear Chemistry Themes Science Chemistry nuclear chemistry ..The Discovery Of Radioactivity . Transuranium Element ..Nuclear Structure ..nuclear chemistry Index. http://www.cartage.org.lb/en/themes/Sciences/Chemistry/NuclearChemistry/mainpage

Themes Science Chemistry The Discovery Of Radioactivity Themes Science Chemistry The Discovery Of Radioactivity ... Nuclear Chemistry Index

9. Nuclear Chemistry Index Themes Science Chemistry nuclear chemistry nuclear chemistry Index ..Atomic components ..Positron emission ..Proton ..Kelectron capture ..Neutron . http://www.cartage.org.lb/en/themes/Sciences/Chemistry/NuclearChemistry/NuclChem

Themes Science Chemistry Nuclear Chemistry Themes Science Chemistry Nuclear Chemistry ... Gamma emission

10. Actinides Illustrated article, covering the uses of these elements in nuclear chemistry, and related research initiatives. http://www.llnl.gov/str/Terminello.html

UNDERSTANDING the periodic table, with its assemblage of columns and rows of elements, has been a perennial challenge for chemistry students. (See the below.) Understanding at the atomic level a remarkable row of elements has been a particular research challenge for Lawrence Livermore scientists over the years. That row is called the actinides, a collection of 14 radioactive elements named after the element actinium. "There's a tremendous amount we don't know about the actinides," says Lawrence Livermore chemist Lou Terminello, who leads the Materials Science and Technology Division of the Chemistry and Materials Science Directorate. To learn more about these elements, he says, the Department of Energy funds about $100 million per year for research at Lawrence Livermore. The research is conducted by teams of chemists, physicists, engineers, metallurgists, and environmental scientists on a diverse set of national security and environmental issues. Terminello says that a more fundamental understanding of actinides is needed to better assess the nation's nuclear stockpile, help stem the clandestine proliferation of nuclear weapons, and better understand the implications of nuclear fuels' (such as enriched uranium) use and storage. Environmental contamination by actinides is also a major concern at several major DOE facilities. In addition, actinides such as uranium, neptunium, plutonium, and americium are the major contributors to the long-term radioactivity of nuclear waste currently targeted for the proposed Yucca Mountain repository in Nevada.

11. Nuclear Chemistry A complete review and case study of nuclear chemistry Complete Bibliography on nuclear chemistry from the ALSOS Digital Library for Nuclear Issues http://www.chemcases.com/nuclear/

Nuclear Chemistry and the Community Dr. Frank Settle Nuclear Science in: two 45 minute classes , or a quick review for interested learners, or A complete review and case study of nuclear chemistry Discovery of the Neutron Playing with Neutrons(1934-38) Discovery of Fission(1938) Discovery of Pu-239(1941) ... Case Study Visit the complete source for nuclear science information Goals: In this session you will be introduced to: Merlexi Craft: See http://merlexi.com The relationship of energy and matter The origins of nuclear energy The use of nuclear energy for power and weapons High energy radiation How spent nuclear power fuels are potential sources of nuclear weapons Insight into questions about nuclear issues that are in the news during these times of unrest. Albert Einstein as Memorialized at the US National Academy of Sciences Energy and Matter: Nuclear science began with Albert Einstein who recognized that matter and energy were equivalent. We have all heard the equation: E=mc This was Einstein's understanding at the beginning of the last century. Energy - the ability to provide heat or do work, had an equivalency with matter - the mass of the physical universe. The relationship was astonishing in that the amount of energy equivalent to a given amount of matter was related by the square of the speed of light. The equation predicted that IF matter could be converted to energy in a practical manner, a very small amount of matter would generate enormous amounts of energy.

12. Nuclear Chemistry nuclear chemistry deals with the nuclei of atoms breaking apart. Atoms are continually undergoing decay. When studying nucle ar chemistry, 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)

13. DEFAULT The Radiochemistry and nuclear chemistry Book Site. RADIOCHEMISTRY and nuclear chemistry, 3rd Edition, 2002. Gregory Choppin, JanOlov Liljenzin, http://book.nc.chalmers.se/

The Radiochemistry and Nuclear Chemistry Book Site RADIOCHEMISTRY and NUCLEAR CHEMISTRY, 3rd Edition, 2002 Gregory Choppin, Jan-Olov Liljenzin, Jan Rydberg General Information Book Cover Contents Foreword ... Butterworth-Heinemann web-site The book pages on this site are in DPF-format, and can be viewed but not printed The site is optimized for Nescape Navigator, but contains very little non-standard HTML When workong with the Self-grading Tests JavaScript must be available, and permitted to run, on your browser (Updated 2004-12-09)

14. Nuclear Chemistry Home Page nuclear chemistry at Pacific Northwest National Laboratory ( PNNL). Advanced Technology for Radiation Sensing Barrell Scanner Detector Development http://www.pnl.gov/fiber/

Nuclear Chemistry at Pacific Northwest National Laboratory ( PNNL Advanced Technology for Radiation Sensing Barrell Scanner Detector Development ... In Situ Analysis Low Level Counting Room Lower Monumental Dam Counting Nondestructive Analysis PNNL Fiber-Optic Facility Radiochemical Analysis Radionuclide Measurement ... Trace Element Measurement Ultra-Low Level Counting Room Software Staff Questions or comments may be directed to Mary Bliss Last Updated: August 9, 1999

15. Atomic Alchemy: Nuclear Processes An overview of nuclear chemistry, with interactive tests, forums, and surveys. http://library.thinkquest.org/17940/

The Atom Basic Atom Atomic Nomenclature The Atom Atomic Nomenclature ... Radioactivity Nuclear Fusion Basic Fusion Binding Energy Nucleosynthesis The Stars ... Inertial confinement Nuclear Fission Basic Fission Fission Power Nuclear Waste (Types) Nuclear Waste (Storage) ... Biographies Forums Nuclear Power Discussion Forum Question Forum Survey Take the Survey View Results Test Test your Knowledge High Scores Feedback Guest Book Contact Us This site is optimized for at least 800x600 resolution and 65,000 colors, and is Java Enhanced. If Java is disabled, a text menu will automatically appear. Medieval Alchemists long ago sought to transmute common materials into more precious substances. Usually, they tried transforming lead into gold, and almost every king had an appointed alchemist. While these chemists were unsuccessful in their goals; modern chemistry and physics have allowed us to achieve the most far-fetched of the medieval alchemists' dreams and to understand the processes that change one element into another. We welcome and invite you to explore our web site and the mysterious processes which govern and shape the universe. We would also like to provide you with some words of advice. If you ever get confused by all the different particles and names, remember the wise words of Enrico Fermi, who said, "

16. Nuclear Chemistry [Staff] Nulcear Chemistry Staff. Group Office Radiation Instrumentation and Applications Top of this page nuclear chemistry Home Page http://www.pnl.gov/fiber/staff.html

Nulcear Chemistry Staff Group Office Radiation Instrumentation and Applications Chemical Process and Environmental Technology Group Office Dave Robertson, Senior Techical Group Manager e-mail: de_robertson@pnl.gov Ron Brodzinski Chief Scientist e-mail: rl_bordzinski@pnl.gov Bruce Geelhood, Staff Scientist e-mail: bd_geelhood@pnl.gov Vicki Heimbigner, Secretary e-mail: vl_heimbigner@pnl.gov Charlie Stone, Senior Project Assistant e-mail: cf_stone@pnl.gov Donna Schneider, Senior Secretary e-mail: dl_schneider@pnl.gov Ken Wheeler, Technical Specialist e-mail: kr_wheeler@pnl.gov Radiation Instrumentation and Applications Mary Bliss Technical Group Leader e-mail: m_bliss@pnl.gov Sonya Bowyer, Senior Research Scientist e-mail: sm_bowyer@pnl.gov Richard Arthur, Senior Research Scientist e-mail: rj_arthur@pnl.gov Charlie Hubbard, Technical Specialist II e-mail: cw_hubbard@pnl.gov Mike Knopf, Engineering Specialist e-mail: ma_knopf@pnl.gov Mark Panisko Technical Specialist e-mail: me_panisko@pnl.gov

17. Chemistry Division Responsible for isotope and nuclear chemistry, biochemistry, health and environmental chemistry, and specialfunction lasers. http://pearl1.lanl.gov/external/

Introduction Infrastructure and Mission Research Highlights Facilities Organizational Chart ... Division Office Opportunities Licensable technologies Student and Postdoctoral Programs Industrial Partnering Jobs at Los Alamos ... Periodic Table Welcome to Chemistry Division Please explore our web pages so that you may get to know us better. If you have questions concerning any of the technologies or capabilities described on these pages, please either contact the appropriate group leader or the Chemistry division office. MESA Technology for its potential to change the pharmaceutical industry. posted 7/05 Groups Advanced Chemical Diagnostics and Instrumentation (C-ADI) Actinide Analytical Chemistry (C-AAC) Physical Chemistry and Applied Spectroscopy (C-PCS) ... C-FM Operated by the University of California for the US Department of Energy chemistry@lanl.gov NOTICE: Information from this server resides on a computer system funded by the U.S. Department of Energy. Anyone using this system consents to monitoring of this use by system or security personnel. For complete conditions of use see

18. Nuclear Chemistry Kiwi Web New Zealand and Chemistry! Analytical Chemistry Physical Chemistry Stoichiometry nuclear chemistry Alchemy Biochemistry http://www.chemistry.co.nz/nuclear_chemistry.htm

Home Inorganic Chemistry Organic Chemistry Analytical Chemistry ... Stoichiometry [ Nuclear Chemistry ] Alchemy Biochemistry Home Nuclear Chemistry The division of chemistry dealing with changes in or transformations of the atomic nucleus. It includes spontaneous and induced radioactivity, the fission or splitting of nuclei, and their fusion, or union; also the properties and behaviour of the reaction products and their separation and analysis. The reactions involving nuclei are usually accompanied by large energy changes, far greater than those of chemical reactions; that are carried out in nuclear reactors for electric power production and manufacture of radioactive isotopes for medical use, also (in research work) in cyclotrons. Useful Nuclear Chemistry Websites A Little Nut: The Discovery of the Atomic Nucleus UMR American Nuclear Society Elements 116 and 118 Discovered at Berkeley Lab Light Water Nuclear Reactors ... Energy, Science, and Technology Current Awareness Publications which provides electronic access to current energy-related, subject-specific collections of bibliographic citations with abstracts and full-text reports, when available, compiled from a variety of available resources. Accelerator: Circular Cyclotrons and Synchrotrons UIC - Radiation and Life The Difficult Years: Fission Research, 1939 - 1945

19. SpringerLink - Publication www.springerlink.com/link.asp?id=105692 nuclear chemistry of terms and concepts that are related to the topic of nuclear chemistry. Beta Emission is a nuclear decay process. It is the process that ejects a http://www.springerlink.com/openurl.asp?genre=journal&issn=0236-5731

20. Nuclear Chemistry nuclear chemistry. Radioactive elements are elements that do not have a stable nucleus. These elements give off particles and/or rays to change their http://library.thinkquest.org/10429/low/nuclear/nuclear.htm

Radioactive elements are elements that do not have a stable nucleus. These elements give off particles and/or rays to change their nucleus and become a stable element. Some lightweight isotopes are radioactive but, all elements that have an atomic number greater than 82 are radioactive. The process of changing the nucleus to a stable one is called radioactive decay. Nuclear Equations Radioactive Decay Nuclear Bombardment Reactions Half-Life Nuclear Equations Nuclear notations are used to represent the decay of one element into another. The generic formula for a radioactive element is as follows: Some examples of nuclear decay equations are: Nuclear Equations Radioactive Decay Nuclear Bombardment Reactions Half-Life ... Top of Page Radioactive Decay There are three types of natural radioactive decay. They are alpha emisson, beta emission, and gamma emission. Alpha emission results in releasing an alpha particle. An alpha particle has two protons and two neutrons, so it has a positive charge. (Since it has two protons it is a helium nucleus.) It is written in equations like this: Beta emission is when a high speed electron (negative charge) leaves the nucleus. Beta emission occurs in elements with more neutons than protons, so a neutron splits into a proton and an electron. The proton stays in the nucleus and the electron is emitted. Negative electrons are represented as follows:

A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z

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