We should have an INVENTORY and the MATERIAL SAFETY DATA SHEETS(MSDS).
We should have an INVENTORY OF THE INCOMING RADIOACTIVE MATERIALS, CHEMICALS, TOXIC METALS, OR TOXIC AEROSOLS, AND WHAT IS PLACED IN THE WASTE CONTAINMENTS OR FLUSHED TO THE ENVIRONMENT ASAP AND AS EFFICIENT AS POSSIBLE.
ALSO, THE RF, MICROWAVE DEVICES, LASERS CLASS 1,2,3,4 AND NUCLEAR WEAPON STOCKPILES FOR ALL COUNTRIES IN THE WORLD WHETHER THEY ARE FOR PROLIFERATION OR NON-PROLIFERATION.
THE NRDC SAID THERE WERE MORE THAN 40,000 NUCLEAR WEAPON STOCKPILE IN 1994 AND THERE ARE SUPPOSEDLY 300 IN ISRAEL CURRENTLY. JAPAN, NORTH KOREA, CHINA, INDIA, PAKISTAN, UK, USSR, USA, FRANCE ARE AMONG THE COUNTRIES, HOW ABOUT THE SOUTH AMERICAN COUNTRIES...
what else do you want me to look for in the OSHA online register? How about the CDC? how about the NIOSH?
for the acronyms, see below...
there are other federal agencies like the Department of Commerce, Department of Transportation,
How effective are Metal Detectors on small metallic samples?
How do you pick up shards of glass?
How do you pick up non biodegradable plastics?
How do you convert non biodegradable plastics to biodegradable plastics?
How do you make green or bioplastics?
How do you clean up the mess in the landfills and garbage in the streets?
What do you know of Bioremediation, PhytoRemediation, and NanoRemediation?
check out http://www.ecomass.com
Now that we have gone full circle with naturally Preventive Medicine, Public Health and Therapies in case of Medical Illnesses,
let us apply most if not all we know to the New Elements, 6.6 Billion People, God, how She breeds(good or nice), and what amounts to the FUTURE of Mankind or Humanity, Womankind or Womanity and them KIDDOES and GRANDKIDDOES AND GREATGRANDKIDDOES etc.
what else??? none for Magnetic Fields, Electromagnetic Fields, Radioisotopes, Radionuclides
there is for Uranium but not for Depleted Uranium Scud Missiles, none for Anthrax, none for Agent Orange,
how do we classify the incidents in Bhopal India, recycling scrap metals that have Co-60 or Cs-137 or uranium slugs?
My picture is on
I have a joke--limey or lemony?
More mundane: How do you monitor and pick up GLASS SHARDS or BROKEN GLASS, PLASTICS that are not recyclables or biodegradables, METAL DETECTORS are used for METALS, what else?
Who is into Nanodosimetry R&D that you know of?
Environmental Protection Agency(EPA), Department of Energy(DOE), National Science Foundation(NSF), National Oceanic and Atmospheric Administration(NOAA), Center for Disease Control(CDC), National Institute of Occupational Health and Safety(NIOSH), National Institute of Environmental Health Sciences(NIEHS), Department of Health and Human Services(DHHS), National Institute of Health(NIH), National Cancer Institute(NCI), National Library of Medicine(NLM), National Institute of Dental Research(NIDR), Occupational Safety and Health Administration(OSHA), Department of Labor(DOL), Department of Defense(DOD), Naval Research Laboratory(NRL), Chronicle for Higher Education, Center for Disease Control and Prevention(CDC), Community of Science(COS), National Academy of Science(NAS), Association for Women in Science(AWIS), chapter in Central New Jersey(AWIS-CJC), American Association for the Advancement of Science(AAAS), Third World Organization for Women in Science(TWOWS), Philippine American Academy of Sciences and Engineering(PAASE), Phiilppine Association for the Advancement of Science(PHILAAS), Philippine Engineering and Science Organization(PESO), Filipino American Association of Engineers(FAAE), National Federation of Fil-Am Association(NAAFFAA)
National Nanotechnology Initiative(NNI)
What should be the budget for the Flash Photolysis studies on New Elements Production?
Geographical Information System(GIS)
There is a job opening for Professor of Justice Studies(GIS), Spatial and Statistical Analysis at Winston-Salem State U in North Carolina for a PhD in criminal justice, criminology, sociology or related field from an accredited institution. Preference will be given to candidates with expertise in spatial analysis and geographic information system(GIS) technology.
That is one application of GIS-not just the criminals with ankle tag whose movement is monitored with the GIS which has GPS or geophysical Positioning system and also the contraband radioactive sources and machines, toxic chemicals and metals etc.
Someday, most if not all hazardous substances can be monitored by GIS, including radioactive, chemically toxic, reactive, inflammable and corrosive, e.g. chemicals, fuels, polycyclic aromatic hydrocarbons, polycarbonate, polyethylene, polyimide, polystyrene, polyurethane, polymethylmethacrylate, benzene, toluene, xylene, nitrous oxide, sulfur dioxide, and biochemically toxic agents such as nerve gas agents, anthrax, possible plant pathogens, etc. Also asbestos?, fiberglass?, acrylic?
Perhaps GIS can locate earthquake faults, potential climatological factors that will lead to adverse environmental and weather conditions etc.
The New Elements in the Periodic Table of Elements, http://www.dayah.com/periodic/
which is described in http://www.freewebs.com/ftcuatableofelements/ and http://homepage.mac.com/dtrapp/Elements/combination2.html
Question 1: What is the Relative Biological Effectiveness of the new elements? Quality Factor? Index of Harm?
The question is with very short half life that was not detected and catalogued or studied, how do you obtain the RBE, QF, Index of Harm etc. See National Council of Radiation Protection(NCRP) documents.
Question 2: Is there a need to bother with the very short half-life? Perhaps the answer is theoretically yes because the energies and radioactive, physical, chemical, biological hazards would have been released and spent already leading to medical problems that was not identified vis a vis that particular "element" etc.
Question 3: Is there a way to do epidemiological studies of the new elements? Can we do whole body counting, bioassay like urinalysis and fecal analysis and the more dainty teeth, nails, hairs, salivas or sputum etc. also analysis of blood,
Question 4: Is there a need to extend Transuranium Registry to the New Elements?
Question 5: How about for the toxic elements and substances like Pb, Cd, Hg, As, what else?
Check out the http://www.freewebs.com/ftcua1/healthresearch.htm
also Lobascio, C., Briccarello, M., Destefanis, R., Faraud, M., Gialanella, G., Grossi, G., Guarieri, V., Manti, L., Pugliese, M., Rusek, A., Scampoli, P., and Durante, M.
ACCELERATOR-BASED TESTS OF RADIATION SHIELDING PROPERTIES OF MATERIALS USED IN HUMAN SPACE INFRASTRUCTURES.
HEALTH PHYSICS JOURNAL. 94(3):242-247; 2008
Question 6: What is the applicability of Signal Processing and Pattern Recognition of biological samples, e.g. for the effect of the New Elements?
Question 7: Who is the current experts in Flash Photolysis?
Who is into Nanodosimetry R&D that you know of?
1. In the nuclear fusion reaction in the sun that we call solar flares and solar winds, also at the Princeton Plasma Physics Lab, in the nuclear fission reaction during the nuclear weapon detonation in the Hiroshima, Nagasaki, testings by the Americans, Russians, Chinese, French, English, Indians, Pakistanis, who else? there are energy releases and linear energy transfer and energy losses and production of new radionucllides which has a distinctive radiotoxicity and chemical toxicity being new or old elements that can be detected by methods in consonance with flash photolysis originally invented by Dr. Manfred Eigen and his two colleagues, Dr. Ronald Norris and Dr. George Porter, died in the 80s, Nobel Prize in Chemistry 1967. LET alpha, beta, gamma, x-ray, neutron, proton, alpha, heavy ion, star aggregates, fission track etch and spectrometer can detect all these before nsec, or faster or slower time lapsed or decay period. Do not forget spontaneous fission from terrestrial sources of uranics and transuranics globally. Also, do not forget the research reactors, nuclear power plants, radiation research, radiation sources and machines in the Federal or National Research Laboratories, Hanford Reservation, Nuclear Waste Dumps and Interim Waste Storage Facilities whether Radioactive, Chemically Toxic, Reactive, Inflammable and Corrosive, Biological Hazards such as HIV/AIDS, Hepatitis
Product Information Compliance System(PICS) for insecticides, fungicides and pesticides
http://www.cdc.gov/ Center for Disease Control and Prevention...
The radiation, chemical and biological toxicity should be monitored. How to prevent them is by adequate radiation shielding and ventilation and protective clothings and eradication of the source etc.
my email is firstname.lastname@example.org
how do we go about writing this grant and others, http://usgrantsgov.blogspot.com to http://usgrantsgov15.blogspot.com
ROSES 2007: Astronomy and Physics Research and Analysis
The synopsis for this grant opportunity is detailed below, following this paragraph. This synopsis contains all of the updates to this document that have been posted as of 02/07/2008 . If updates have been made to the opportunity synopsis, update information is provided below the synopsis.
If you would like to receive notifications of changes to the grant opportunity click send me change notification emails . The only thing you need to provide for this service is your email address. No other information is requested.
Any inconsistency between the original printed document and the disk or electronic document shall be resolved by giving precedence to the printed document.
Funding Opportunity Number:
Feb 07, 2008
Feb 07, 2008
Original Closing Date for Applications:
Mar 28, 2008
Current Closing Date for Applications:
Mar 28, 2008
Apr 27, 2008
Funding Instrument Type:
Category of Funding Activity:
Science and Technology and other Research and Development
Expected Number of Awards:
Estimated Total Program Funding:
00.000 -- Not Elsewhere Classified
Cost Sharing or Matching Requirement:
Unrestricted (i.e., open to any type of entity above), subject to any clarification in text field entitled "Additional Information on Eligibility"
Additional Information on Eligibility:
NNH07ZDA001N, entitled "Research Opportunities in Space and Earth Sciences - 2007 (ROSES-2007)," will be available on or about February 16, 2007, by opening the NASA Research Opportunities homepage at http://nspires.nasaprs.com/ and then linking through the menu listings "Solicitations" to "Open Solicitations." This NASA Research Announcement (NRA) solicits proposals for supporting basic and applied research and technology across a broad range of Earth and space science program elements relevant to one or more of the following NASA Research Programs: Earth Science, Heliophysics, Planetary Science, and Astrophysics. Proposal due dates are scheduled starting on May 1, 2007, and continue through April 11, 2008. Electronically submitted Notices of Intent to propose are requested for all program elements, with the first such due date being March 15, 2007. Electronic submission of proposals is required by the respective due dates for each program element, and must be submitted by an authorized official of the proposing organization. Participation is open to all categories of organizations, foreign and domestic, including educational institutions, industry, nonprofit organizations, NASA centers, the Jet Propulsion Laboratory, and other Government agencies’ Electronic proposals may be submitted via the NASA proposal data system NSPIRES or via Grants.gov. Every organization that intends to submit a proposal in response to this NRA must be registered with NSPIRES, and organizations that intend to submit proposals via Grants.gov must be registered with Grants.gov. Such registration must identify the authorized organizational representative(s) who will submit the electronic proposal. All principal investigators and other participants (e.g. co-investigators) must be registered in NSPIRES. Potential proposers and proposing organizations are urged to access the system(s) well in advance of the proposal due date(s) of interest to familiarize themselves with its structure and enter the requested information. Further information about specific program elements may be obtained from the individual Program Officers listed in the Summary of Key Information for each program element in this NRA, while questions concerning general NRA policies and procedures may be directed to Dr. Paul Hertz, Science Policy, Process, and Ethics Chief, Science Mission Directorate, NASA Headquarters, Washington, DC 20546-0001; E-mail: email@example.com; Telephone: 202-358-0986.This is a broad agency announcement as specified in FAR 6.102 (d) (2). Notwithstanding the posting of this opportunity at FedBizOpps.gov, Grants.gov, or at both sites, NASA reserves the right to determine the appropriate award instrument for each proposal selected pursuant to this announcement.
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If you have difficulty accessing the full announcement electronically, please contact:
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Synopsis Modification History
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Manfred Eigen, PhD
Ronald George Wreyford Norrish, PhD
George Porter, PhD
From Wikipedia, the free encyclopedia
Flash photolysis is a pump-probe technique, in which a laser of nanosecond, picosecond, or femtosecond pulse width is excited by a short-pulse light source such as a flash lamp. The technique was developed in 1949 by Manfred Eigen, Ronald George Wreyford Norrish and George Porter , who won the 1967 Nobel Prize in Chemistry for this invention.
Flash photolysis was developed shortly after World War II as a result of the military attempts to build cameras fast enough to photograph missiles in flight. As an analytical technique it was introduced to scientists by Manfred Eigen, Ronald Norrish and George Porter, who jointly won the 1967 Nobel Prize in Chemistry for this invention. Within the past 40 years the technique became more powerful and sophisticated due to the developments in optics and lasers. Also the interest in this method grew considerably as the practical applications expanded from chemistry to biology, materials science, environmental sciences, etc. Nowadays flash photolysis facilities are extensively used by researchers to study light induced processes in organic molecules, polymers, nanoparticles, semiconductors, photosynthesis in plants, signaling and light induced conformational changes in biological systems, etc.
Nobel Prize: Chemistry 1967
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The Nobel Prize in Chemistry 1967
"for their studies of extremely fast chemical reactions, effected by disturbing the equlibrium by means of very short pulses of energy"
Ronald George Wreyford Norrish
1/2 of the prize
1/4 of the prize
1/4 of the prize
Federal Republic of Germany
Max-Planck-Institut für Physikalische Chemie
Goettingen, Federal Republic of Germany
Institute of Physical Chemistry
Cambridge, United Kingdom
Royal Institution of Great Britain
London, United Kingdom
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