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What is the best way to tell someone their politics disagrees with science?
Let scientists say it.My favourite example of such a consensus statement involves the List of Worldwide Scientific Organizations that hold the position that Climate Change has been caused by human action.When one considers how economically and politically disparate the organisations and the countries they represent are, one realises that climate change is either the one conspiracy that all major enemies are supporting each other in propagating or else it’s something bigger than any state or society.Academia Chilena de Ciencias, ChileAcademia das Ciencias de Lisboa, PortugalAcademia de Ciencias de la República DominicanaAcademia de Ciencias Físicas, Matemáticas y Naturales de VenezuelaAcademia de Ciencias Medicas, Fisicas y Naturales de GuatemalaAcademia Mexicana de Ciencias,MexicoAcademia Nacional de Ciencias de BoliviaAcademia Nacional de Ciencias del PeruAcadémie des Sciences et Techniques du SénégalAcadémie des Sciences, FranceAcademies of Arts, Humanities and Sciences of CanadaAcademy of AthensAcademy of Science of MozambiqueAcademy of Science of South AfricaAcademy of Sciences for the Developing World (TWAS)Academy of Sciences MalaysiaAcademy of Sciences of MoldovaAcademy of Sciences of the Czech RepublicAcademy of Sciences of the Islamic Republic of IranAcademy of Scientific Research and Technology, EgyptAcademy of the Royal Society of New ZealandAccademia Nazionale dei Lincei, ItalyAfrica Centre for Climate and Earth Systems ScienceAfrican Academy of SciencesAlbanian Academy of SciencesAmazon Environmental Research InstituteAmerican Academy of PediatricsAmerican Anthropological AssociationAmerican Association for the Advancement of ScienceAmerican Association of State Climatologists (AASC)American Association of Wildlife VeterinariansAmerican Astronomical SocietyAmerican Chemical SocietyAmerican College of Preventive MedicineAmerican Fisheries SocietyAmerican Geophysical UnionAmerican Institute of Biological SciencesAmerican Institute of PhysicsAmerican Meteorological SocietyAmerican Physical SocietyAmerican Public Health AssociationAmerican Quaternary AssociationAmerican Society for MicrobiologyAmerican Society of AgronomyAmerican Society of Civil EngineersAmerican Society of Plant BiologistsAmerican Statistical AssociationAssociation of Ecosystem Research CentersAustralian Academy of ScienceAustralian Bureau of MeteorologyAustralian Coral Reef SocietyAustralian Institute of Marine ScienceAustralian Institute of PhysicsAustralian Marine Sciences AssociationAustralian Medical AssociationAustralian Meteorological and Oceanographic SocietyBangladesh Academy of SciencesBotanical Society of AmericaBrazilian Academy of SciencesBritish Antarctic SurveyBulgarian Academy of SciencesCalifornia Academy of SciencesCameroon Academy of SciencesCanadian Association of PhysicistsCanadian Foundation for Climate and Atmospheric SciencesCanadian Geophysical UnionCanadian Meteorological and Oceanographic SocietyCanadian Society of Soil ScienceCanadian Society of ZoologistsCaribbean Academy of Sciences viewsCenter for International Forestry ResearchChinese Academy of SciencesColombian Academy of Exact, Physical and Natural SciencesCommonwealth Scientific and Industrial Research Organization (CSIRO) (Australia)Consultative Group on International Agricultural ResearchCroatian Academy of Arts and SciencesCrop Science Society of AmericaCuban Academy of SciencesDelegation of the Finnish Academies of Science and LettersEcological Society of AmericaEcological Society of AustraliaEnvironmental Protection AgencyEuropean Academy of Sciences and ArtsEuropean Federation of GeologistsEuropean Geosciences UnionEuropean Physical SocietyEuropean Science FoundationFederation of American ScientistsFrench Academy of SciencesGeological Society of AmericaGeological Society of AustraliaGeological Society of LondonGeorgian Academy of SciencesGerman Academy of Natural Scientists LeopoldinaGhana Academy of Arts and SciencesIndian National Science AcademyIndonesian Academy of SciencesInstitute of Ecology and Environmental ManagementInstitute of Marine Engineering, Science and TechnologyInstitute of Professional Engineers New ZealandInstitution of Mechanical Engineers, UKInterAcademy CouncilInternational Alliance of Research UniversitiesInternational Arctic Science CommitteeInternational Association for Great Lakes ResearchInternational Council for ScienceInternational Council of Academies of Engineering and Technological SciencesInternational Research Institute for Climate and SocietyInternational Union for Quaternary ResearchInternational Union of Geodesy and GeophysicsInternational Union of Pure and Applied PhysicsIslamic World Academy of SciencesIsrael Academy of Sciences and HumanitiesKenya National Academy of SciencesKorean Academy of Science and TechnologyKosovo Academy of Sciences and Artsl'Académie des Sciences et Techniques du SénégalLatin American Academy of SciencesLatvian Academy of SciencesLithuanian Academy of SciencesMadagascar National Academy of Arts, Letters, and SciencesMauritius Academy of Science and TechnologyMontenegrin Academy of Sciences and ArtsNational Academy of Exact, Physical and Natural Sciences, ArgentinaNational Academy of Sciences of ArmeniaNational Academy of Sciences of the Kyrgyz RepublicNational Academy of Sciences, Sri LankaNational Academy of Sciences, United States of AmericaNational Aeronautics and Space AdministrationNational Association of Geoscience TeachersNational Association of State ForestersNational Center for Atmospheric ResearchNational Council of Engineers AustraliaNational Institute of Water & Atmospheric Research, New ZealandNational Oceanic and Atmospheric AdministrationNational Research CouncilNational Science FoundationNatural EnglandNatural Environment Research Council, UKNatural Science Collections AllianceNetwork of African Science AcademiesNew York Academy of SciencesNicaraguan Academy of SciencesNigerian Academy of SciencesNorwegian Academy of Sciences and LettersOklahoma Climatological SurveyOrganization of Biological Field StationsPakistan Academy of SciencesPalestine Academy for Science and TechnologyPew Center on Global Climate ChangePolish Academy of SciencesRomanian AcademyRoyal Academies for Science and the Arts of BelgiumRoyal Academy of Exact, Physical and Natural Sciences of SpainRoyal Astronomical Society, UKRoyal Danish Academy of Sciences and LettersRoyal Irish AcademyRoyal Meteorological Society (UK)Royal Netherlands Academy of Arts and SciencesRoyal Netherlands Institute for Sea ResearchRoyal Scientific Society of JordanRoyal Society of CanadaRoyal Society of Chemistry, UKRoyal Society of the United KingdomRoyal Swedish Academy of SciencesRussian Academy of SciencesScience and Technology, AustraliaScience Council of JapanScientific Committee on Antarctic ResearchScientific Committee on Solar-Terrestrial PhysicsScripps Institution of OceanographySerbian Academy of Sciences and ArtsSlovak Academy of SciencesSlovenian Academy of Sciences and ArtsSociety for Ecological Restoration InternationalSociety for Industrial and Applied MathematicsSociety of American ForestersSociety of Biology (UK)Society of Systematic BiologistsSoil Science Society of AmericaSudan Academy of SciencesSudanese National Academy of ScienceTanzania Academy of SciencesThe Wildlife Society (international)Turkish Academy of SciencesUganda National Academy of SciencesUnion of German Academies of Sciences and HumanitiesUnited Nations Intergovernmental Panel on Climate ChangeUniversity Corporation for Atmospheric ResearchWoods Hole Oceanographic InstitutionWoods Hole Research CenterWorld Association of Zoos and AquariumsWorld Federation of Public Health AssociationsWorld Forestry CongressWorld Health OrganizationWorld Meteorological OrganizationZambia Academy of SciencesZimbabwe Academy of Sciences
What is it like to attend Tufts University?
This is regarding undergraduate experience on the Somerville/Medford campus.For me, attending Tufts University has been engaging, fun and enlightening. I've learned a lot, both in and out of the classroom, and made some amazing connections, both with peers and mentors.I think the greatest strength of the Tufts community is its diversity to size ratio. WIth 5,300 undergrads and over 70 official degree programs, there are a lot of interests represented in a small space. The university does a great job of integrating these programs. Students in the School of Arts and Sciences share a lot of facilities with the students in the Engineering School, and they all live, eat and socialize together. Whatever activity students engage in, there are a wide variety of viewpoints represented (and, as David Foster Wallace proclaimed in his 2005 Kenyon College commencement speech, perspective is the true value of liberal arts education). Additionally, undergrads have full access to graduate programs in their fields of study, and upperclassmen regularly share classes with masters students. It is a common joke that the typical Tufts student has two seemingly unrelated majors, such as music and economics, or engineering and philosophy.This diverse but engaged and intermixed balance is achieved by keeping the school relatively small, with a strong sense of community. Tufts is in an urban area (2 MBTA stops from Harvard and 6 from downtown Boston), but far enough out of town to have its own actual campus with quads, dormitories, brownstones, and other typical municipal facilities. Additionally, students are kept engaged by having the opportunity to explore cross-wise between programs, and vertically beyond the typical undergraduate classroom experience. Whether it is working in a lab with professors, researchers and grad students, or working in a startup in Kendall Square, or getting coaching on how to compete in an international sport, Tufts offers a range of opportunity. And, of course, if you want to party, there are regularly a variety of events on campus every Thursday, Friday and Saturday, and you can often find large groups of Tufts students at bars near campus on Tuesdays. Additionally, if you can't find what you need on campus, campus is near MIT, Harvard, BU, BC, Northeastern, massART, Wentworth, Babson, Olin and more schools. That is the beauty of education in this city. However, it is worth noting the cost of living in Somerville/Medford is lower than in Cambridge or Boston.There are certainly advantages to homogeny, and there is a time and place for specialization at Tufts, as is integral to any high-level academic institution. However, I believe the richness of experience at the school is derived from operationally integrated diversity of interest and perspective among students. It is amazing to sit down at a dining hall table with a biomedical engineer, political science major, soccer player, leader of the Entrepreneurs society, and prolific music student and socialize. This has been the norm of my experience, for that I am very grateful.It is worth mentioning, especially in the context of universities, experience is subjective. The communities you invest in, whether through academic path, sports teams, extracurricular choices, or off-campus opportunities, play a large role in determining the "college experience." One of the main value propositions of undergraduate education is that it offers an abundance of these communities to explore, and Tufts is no exception. Finally, as with most things in life, you get out what you put in.Some more selected personal examples, since those are the most salient to me, to highlight the phenomenon I am attempting to explain:In 7 semesters as a Cognitive and Brain Science major/Linguistics minor, I have taken courses in these departments: Biology, Civil and Environmental Engineering, Community Health, Comparative Religion, Computer Science, Engineering Psychology, English, Environmental Science, Experimental College, Industrial Engineering, International Letters and Visual Studies, Linguistics,Mathematics, Music Theory, Nutrition, Philosophy, Portuguese, Psychology, and Urban and Environmental Planning. To reiterate, those are all departments with their own offices/building/faculty, etc, and just a small sampling of what one student has done in short timeAs a senior, I currently live with an Economics major/Art history minor who is captain of the varsity sailing team and has already secured a job at a top international finance firm, a Computer Science major/Entrepreneurial leadership minor who is president of the Tufts Entrepreneurs Society and a member of the rugby team, and a mechanical engineering student who is an avid sailor, cyclist, and climber, among other things.Sophomore year, 2 of my roommates built and launched a campus-wide social networking platform (Home | Dabbut).During my junior year, I travelled to 6 states and 3 continents to engage in professional sailing events (Extreme Sailing Series, Melges 32 circuit) and was able to maintain a 4-credit course-load with the support of my teachers and coaches.As an avid lover of food who spent 2 years in the restaurant industry, I regularly eat well around campus on a small budget-- there's is great food in this area.Two of my professors this semester (Dennett and Omenetto) have given TED talks (not TEDx).In the last 12 days, on top of talks on campus, I have commuted to see lectures at Harvard's Science Center, the MIT Media Lab and Microsoft NERD.I am a member of a co-ed Greek organization that seceded from the national chapter in 1976 to maintain more open and diverse standards of membership. This organization engages in campus outreach, philanthropy, and throws 2-3 parties in their house each week.Edited to include clearer formatting and correct typo's.
What kind of technology is used in New Mexico?
I'll try to answer your question, like a Mexican Native born, raised and educated in the Mountain's City located in the Northeast of México.In New Mexico, the enchanted land,The Sandia National Laboratories is an exceptional partner to business.The University of New Mexico Center for High Tech Materials (CHTM) is dedicated to excellence in photonics, microelectronics and nanoscale materials and devices and their applications.Thanks to the Air Force Research Laboratory, home of the Air Force’s Directed Energy Directorate, New Mexico is THE HUB of directed energy and photonics research. With companies like OptiPulse, SolAero, and Skorpios, New Mexico leads in technology development in lasers systems, high power electromagnetics weapons modeling and simulation, space solar cells, and directed energy and electro-optics.InnovationNew Mexico has a rich environment for technology commercialization via 3 national laboratories, 3 renowned research universities, and many nonprofit research institutions. Most of these institutions offer specialized services and facilities to entrepreneurs and businesses.LaboratoriesLos Alamos National Laboratory (LANL) was established in 1943 as site Y of the Manhattan Project for the single purpose of building an atomic bomb. The lab’s mission continues to be national security with a focus on nuclear proliferation, border security, energy and infrastructure security, and countermeasures to nuclear and biological terrorist threats. In addition, the lab works to assure the safety, security, and reliability of the nation’s nuclear deterrent.LANL’s fundamental science activities include: high-energy and applied physics and theory, high-performance computing, dynamic and energetic materials science, superconductivity, quantum information, advanced materials, bioinformatics, theoretical and computational biology, chemistry, earth and environmental science, alternative energy systems, and engineering sciences and applications.LANL success stories include:NASA selected SuperCam instrument, embedded with Laser-Induced Breakdown Spectroscopy (LIBS) technology originally developed at LANL, for the Mars 2020 mission.LANL scientists successfully test launched a new rocket design that includes high-energy fuel and a new motor design that delivers a high level of performance as well as safety.R&D Magazine has awarded over 130 awards to LANL-developed technology since 1978. In 2014 Safire, a multiphase flow meter, and Acoustic Wavenumber Spectroscopy (AWS), which generates images of hidden structural properties and/or defects, were among the winners.Partnering or licensing a technology is offered at LANL through the Richard P. Feynman Center for Innovation.Sandia National Laboratories (SNL) has also had a presence in New Mexico since the 1940’s. The lab collaborates with other government agencies, industry, and academic institutions on its fourfold mission which is composed of nuclear weapons, defense systems and assessments, energy and climate, international, homeland, and nuclear security. Sandia’s core capabilities reside in 4 broad areas: systems engineering and integration, high-performance computing and modeling and simulation, extreme-environment testing at unique facilities, and nanotechnologies and microsystems.Research conducted at SNL is founded in 7 areas: bioscience, computing and information science, engineering science, geoscience, materials science, nanodevices and microsystems, and radiation effects and high energy density science. Within each area, Sandia works with academic and business leaders to support essential activities that translate into invention, innovation, entrepreneurship, economic opportunity, and public benefit. Toward this end, SNL also operates 22 Technology Deployment Centers.SNL achievements include:The Federal Laboratory Consortium’s (FLC) 2015 Award for Excellence in Technology Transfer was awarded to Sandia-developed technology that detects bacteria that causes anthrax, which requires no power, refrigerated storage, or lab equipment and makes the process safer, quicker, and less expensive. New Mexico-based business, Aquila, that specializes in the design and manufacture of technologies and services for nuclear security and international safeguards, licensed the technology and is bringing it to market.Sandia researchers developed a single process to control crystal orientation, crystal size, and alloy uniformity resulting in more efficient performance in thermoelectric nanowires.R&D Magazine has awarded more than 100 awards to Sandia researchers and their collaborators since 1976. In 2013, SNL was awarded 3 awards for Membrane Projection Lithography, Mantevo Suite 1.0 (an integrated collection of small software programs that models the performance of full-scale applications, but requires a fraction of the code), and Solar Glare Hazard Analysis Tool (SGHAT).The Air Force Research Laboratory (AFRL) at Kirtland Air Force Base in Albuquerque operates 2 of the Air Force’s 7 technical directorates: Directed Energy and Space Vehicles. The Directed Energy Directorate is the Air Force's center of expertise for directed energy and optical technologies, with a focus in 4 core technical competencies: laser systems, high power electromagnetics, weapons modeling and simulation, and directed energy and electro-optics for space superiority. The Space Vehicles Directorate is comprised of 3 distinct divisions: battlespace environment, spacecraft technology, and integrated experiments and evaluation.AFRL has been recognized for many achievements including: scientist Dr. Candace Lynch receiving the Harold Brown Award for Pioneering Laser Materials Research, and Dr. Mark Draper, senior research engineering psychologist, received the Harry G. Armstrong Scientific Excellence Award for his scientific innovations that are revolutionizing Remotely Piloted Aircraft supervisory control interfaces.UniversitiesThe University of New Mexico (UNM) conducts research in many diverse fields. Research Centers and Institutes at the main and branch campuses include the Health Sciences Center, ARTS Lab, Institute for Astrophysics, New Mexico Center for Particle Physics, Center for High Technology Materials, Center for Micro-Engineered Materials, and the Center for Advanced Research Computing. Intellectual property and technology transfer is facilitated by STC.UNM.New Mexico State University (NMSU) has demonstrated research capacity and contributions in 9 areas: Animal and Range Science, Biochemistry, Molecular Biology and Genetics, Computer Science and Computer and Electrical Engineering, Energy and Biofuels, Environment and Ecology, Medical and Health Sciences, Plant and Soil Sciences, and Space and Water. Intellectual property and technology transfer is facilitated by the Office of Intellectual Property and Technology Office at Arrowhead Center.New Mexico Tech (NMT), formerly the New Mexico Institute of Mining and Technology, is also a nationally-recognized research university. Research organizations at NMT include: Energetic Materials Research and Testing Center; Institute for Complex Additive Systems Analysis; Institute for Engineering Research and Applications, Magdalena Ridge Observatory, MicroElectronics Testing and Technology Obsolescence Program, Optical Surface Technologies, Petroleum Recovery Research Center, and the Research and Support Center for Applied Mathematical Modeling.Technology Advancement ResourcesArrowhead Center at NMSU brings researchers and entrepreneurs together to solve market problems and maximize market opportunities. This is done by commercializing the technology discovered by researchers and helping entrepreneurs navigate the market to monetize these new solutions. Industry sectors and government agencies are also served through the Arrowhead Research and Business Park and Economic and Policy Studies. Other services provided by the Arrowhead Center include: enterprise research, and access funding through grants.Arrowhead Accelerator Sprints assists startups in building a strong team and giving them access to tools and resources necessary for transforming ideas into businesses. Workshops, networking events, mentoring, assistance with capital sourcing and customer acquisition, and work-ready space are also available to incubator residents and friends. ATI specializes in startups emerging in the following industries: power, water, technology, Internet technology, and agri-tech. Technology Commercialization Associates are also available for technology transfer services through the IP Office.The Center for Integrated Technologies (CINT) is jointly operated by Los Alamos and Sandia National Laboratories as a national user facility devoted to establishing the scientific principles that govern the design, performance, and integration of nanoscale materials. The Core Facility is located at Sandia and the Gateway Facility is located at Los Alamos. CINT focuses on 4 scientific areas: nanophotonics and optical nanomaterials; nanoscale electronics and mechanics; soft, biological, and composite nanomaterials; and theory and simulation of nanoscale phenomena.The Center for Leadership in Technology Commercialization (CLTC) at NMT is located within the Department of Management and was created to spur entrepreneurial endeavors out of the university. CLTC offers students the opportunity to gain practical technology commercialization experience, and serves as a catalyst for quick development of licensing and intellectual property sharing opportunities. Examples of recent projects by students include: anti-bacterial agents, network monitoring, and novel refrigeration.The New Mexico Consortium (NMC) was established to strengthen research that is in national interest and increase the role of Los Alamos National Laboratory (LANL) in science, education, and regional economic development. A nonprofit formed by the 3 New Mexico research universities, NMC promotes collaboration among academia, industry, and research. NMC’s science initiatives include: plant biology, biomedical technology and engineering, advanced computing, and modeling and analysis. NMC takes pride in the following core capabilities: PRObE, a supercomputing facility (funded by the National Science Foundation); the ability to perform cross-disciplinary research capable of fully characterizing cell function; and a biological laboratory equipped with wet laboratory facilities, specialized laboratories, a Photobioreactor Matrix, and a 4,000 square foot research greenhouse.The New Mexico Manufacturing Extension Partnership (NM MEP), is an assistance center that works toward increasing small and mid-sized companies’ competitiveness. MEP’s expertise lies in many areas including: results-driven methodologies, best practices, and innovative technologies designed to increase profitability.The New Mexico Small Business Assistance (NMSBA) Program offers technical assistance to New Mexico small businesses. Businesses with a technical challenge that require special expertise can seek assistance from scientists or engineers at Los Alamos and Sandia National Laboratories. Such projects include testing, design consultation, and access to special equipment or facilities.The Small Business Innovation Research (SBIR) program urges small businesses to participate in Federal Research/Research and Development (R/R&D) with the objective of commercialization. The program is competitive and requires an application, which can be awarded a monetary prize for the purpose of conducting the research outlined in the application.STC.UNM is the technology transfer office created by and for UNM. It is centrally located in proximity to research and development and laboratory facilities and other technology based companies, many of which are the result of STC. STC also collaborates with researchers at Sandia National Laboratories and Los Alamos National Laboratory.Activities of the office include: protecting technologies developed at UNM and transferring them to the marketplace (either through the starting of new companies or transferring technologies to established companies); connecting the business community to UNM for access to expertise, facilities, and research activities; and facilitating UNM's role as a contributor to New Mexico's economic development.
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