fbpx
Wikipedia

Science policy

October 31, 2023

Science policy is concerned with the allocation of resources for the conduct of science towards the goal of best serving the public interest. Topics include the funding of science, the careers of scientists, and the translation of scientific discoveries into technological innovation to promote commercial product development, competitiveness, economic growth and economic development. Science policy focuses on knowledge production and role of knowledge networks, collaborations, and the complex distributions of expertise, equipment, and know-how. Understanding the processes and organizational context of generating novel and innovative science and engineering ideas is a core concern of science policy. Science policy topics include weapons development, health care and environmental monitoring.

Graphical summary of a position paper on proposed changes to science policy in the Netherlands around academic incentive and reward structures

Science policy thus deals with the entire domain of issues that involve science. A large and complex web of factors influences the development of science and engineering that includes government science policymakers, private firms (including both national and multi-national firms), social movements, media, non-governmental organizations, universities, and other research institutions. In addition, science policy is increasingly international as defined by the global operations of firms and research institutions as well as by the collaborative networks of non-governmental organizations and of the nature of scientific inquiry itself.

History edit

Main article: History of science policy

State policy has influenced the funding of public works and science for thousands of years, dating at least from the time of the Mohists, who inspired the study of logic during the period of the Hundred Schools of Thought, and the study of defensive fortifications during the Warring States period in China. General levies of labor and grain were collected to fund great public works in China, including the accumulation of grain for distribution in times of famine,[1] for the building of levees to control flooding by the great rivers of China, for the building of canals and locks to connect rivers of China, some of which flowed in opposite directions to each other,[2] and for the building of bridges across these rivers. These projects required a civil service, the scholars, some of whom demonstrated great mastery of hydraulics.

In Italy, Galileo noted that individual taxation of minute amounts could fund large sums to the State, which could then fund his research on the trajectory of cannonballs, noting that "each individual soldier was being paid from coin collected by a general tax of pennies and farthings, while even a million of gold would not suffice to pay the entire army."[3]

In Great Britain, Lord Chancellor Sir Francis Bacon had a formative effect on science policy with his identification of "experiments of ... light, more penetrating into nature [than what others know]",[4] which today we call the crucial experiment. Governmental approval of the Royal Society recognized a scientific community which exists to this day. British prizes for research spurred the development of an accurate, portable chronometer, which directly enabled reliable navigation and sailing on the high seas, and also funded Babbage's computer.

The professionalization of science, begun in the nineteenth century, was partly enabled by the creation of scientific organizations such as the National Academy of Sciences, the Kaiser Wilhelm Institute, and State funding of universities of their respective nations. In the United States, a member of the National Academy of Sciences can sponsor a Direct Submission for publication in the Proceedings of the National Academy of Sciences.[5] PNAS serves as a channel to recognize research of importance to at least one member of the National Academy of Sciences.

Public policy can directly affect the funding of capital equipment, intellectual infrastructure for industrial research, by providing tax incentives to those organizations who fund research. Vannevar Bush, director of the office of scientific research and development for the U.S. government in July 1945, wrote "Science is a proper concern of government"[6] Vannevar Bush directed the forerunner of the National Science Foundation, and his writings directly inspired researchers to invent the hyperlink and the computer mouse. The DARPA initiative to support computing was the impetus for the Internet Protocol stack. In the same way that scientific consortiums like CERN for high-energy physics have a commitment to public knowledge, access to this public knowledge in physics led directly to CERN's sponsorship of development of the World Wide Web and standard Internet access for all.

Philosophies of science policy edit

Basic versus applied research edit

The programs that are funded are often divided into four basic categories: basic research, applied research, development, and facilities and equipment.[7][not verified in body] Translational research is a newer concept that seeks to bridge the gap between basic science and practical applications.

Basic science attempts to stimulate breakthroughs. Breakthroughs often lead to an explosion of new technologies and approaches. Once the basic result is developed, it is widely published; however conversion into a practical product is left for the free market. However, many governments have developed risk-taking research and development organizations to take basic theoretical research over the edge into practical engineering. In the U.S., this function is performed by DARPA.[8]

In contrast, technology development is a policy in which engineering, the application of science, is supported rather than basic science.[9] The emphasis is usually given to projects that increase important strategic or commercial engineering knowledge.[citation needed] The most extreme[dubious discuss] success story is undoubtedly the Manhattan Project that developed nuclear weapons. Another remarkable success story was the "X-vehicle" studies that gave the US a lasting lead in aerospace technologies.[10]

These exemplify two disparate approaches: The Manhattan Project was huge, and spent freely on the most risky alternative approaches. The project members believed that failure would result in their enslavement or destruction by Nazi Germany. Each X-project built an aircraft whose only purpose was to develop a particular technology. The plan was to build a few cheap aircraft of each type, fly a test series, often to the destruction of an aircraft, and never design an aircraft for a practical mission. The only mission was technology development.[11]

A number of high-profile technology developments have failed. The US Space Shuttle failed to meet its cost or flight schedule goals. Most observers explain the project as over constrained: the cost goals too aggressive, the technology and mission too underpowered and undefined.

The Japanese fifth generation computer systems project met every technological goal, but failed to produce commercially important artificial intelligence. Many observers[who?] believe that the Japanese tried to force engineering beyond available science by brute investment. Half the amount spent on basic research rather might have produced ten times the result.[citation needed]

Utilitarian versus monumental science policy edit

Utilitarian policies prioritize scientific projects that significantly reduce suffering for larger numbers of people. This approach would mainly consider the numbers of people that can be helped by a research policy. Research is more likely to be supported when it costs less and has greater benefits. Utilitarian research often pursues incremental improvements rather than dramatic advancements in knowledge, or break-through solutions, which are more commercially viable.

In contrast, monumental science is a policy in which science is supported for the sake of a greater understanding of the universe, rather than for specific short-term practical goals. This designation covers both large projects, often with large facilities, and smaller research that does not have obvious practical applications and are often overlooked. While these projects may not always have obvious practical outcomes, they provide education of future scientists, and advancement of scientific knowledge of lasting worth about the basic building blocks of science.[12]

Practical outcomes do result from many of these "monumental" science programs. Sometimes these practical outcomes are foreseeable and sometimes they are not. A classic example of a monumental science program focused towards a practical outcome is the Manhattan project. An example of a monumental science program that produces unexpected practical outcome is the laser. Coherent light, the principle behind lasing, was first predicted by Einstein in 1916, but not created until 1954 by Charles H. Townes with the maser. The breakthrough with the maser led to the creation of the laser in 1960 by Theodore Maiman. The delay between the theory of coherent light and the production of the laser was partially due to the assumption that it would be of no practical use.[13]

Scholastic conservation edit

This policy approach prioritizes efficiently teaching all available science to those who can use it, rather than investing in new science. In particular, the goal is not to lose any existing knowledge, and to find new practical ways to apply the available knowledge. The classic success stories of this method occurred in the 19th century U.S. land-grant universities, which established a strong tradition of research in practical agricultural and engineering methods. More recently, the Green Revolution prevented mass famine over the last thirty years. The focus, unsurprisingly, is usually on developing a robust curriculum and inexpensive practical methods to meet local needs.

By country edit

Most developed countries usually have a specific national body overseeing national science (including technology and innovation) policy. Many developing countries follow the same fashion. Many governments of developed countries provide considerable funds (primarily to universities) for scientific research (in fields such as physics and geology) as well as social science research (in fields such as economics and history). Much of this is not intended to provide concrete results that may be commercialisable, although research in scientific fields may lead to results that have such potential. Most university research is aimed at gaining publication in peer reviewed academic journals.[14]

A funding body is an organisation that provides research funding in the form of research grants or scholarships. Research councils are funding bodies that are government-funded agencies engaged in the support of research in different disciplines and postgraduate funding. Funding from research councils is typically competitive. As a general rule, more funding is available in science and engineering disciplines than in the arts and social sciences.[15]

Australia edit

In Australia, the two main research councils are the Australian Research Council and the National Health and Medical Research Council.

Canada edit

In Canada, the three main research councils ("Tri-Council") are the Social Sciences and Humanities Research Council (SSHRC) the Natural Sciences and Engineering Research Council (NSERC) and the Canadian Institutes of Health Research (CIHR). Additional research funding agencies include the Canada Foundation for Innovation, Genome Canada, Sustainable Development Technology Canada and several Tri-Council supported Networks of Centres of Excellence.[16]

Brazil edit

In Brazil, two important research agencies are the National Council for Scientific and Technological Development (CNPq, Portuguese: Conselho Nacional de Desenvolvimento Científico e Tecnológico), an organization of the Brazilian federal government under the Ministry of Science and Technology, and São Paulo Research Foundation (FAPESP, Portuguese: Fundação de Amparo à Pesquisa do Estado de São Paulo), a public foundation located in the state of São Paulo, Brazil.[17]

European Union edit

The science policy of the European Union is carried out through the European Research Area, a system which integrates the scientific resources of member nations and acts as a "common market" for research and innovation. The European Union's executive body, the European Commission, has a Directorate-General for Research, which is responsible for the Union's science policy. In addition, the Joint Research Centre provides independent scientific and technical advice to the European Commission and Member States of the European Union (EU) in support of EU policies.[18] There is also the recently established European Research Council, the first European Union funding body set up to support investigator-driven research.

There are also European science agencies that operate independently of the European Union, such as the European Science Foundation, European Space Agency, and the European Higher Education Area, created by the Bologna process.

The European environmental research and innovation policy addresses global challenges of pivotal importance for the well-being of European citizens within the context of sustainable development and environmental protection. Research and innovation in Europe is financially supported by the programme Horizon 2020, which is also open to participation worldwide.[19]

Germany edit

German research funding agencies include the Deutsche Forschungsgemeinschaft, which covers both science and humanities.

India edit

Research funding by the Government of India comes from a number of sources. For basic science and technology research, these include the Council for Scientific and Industrial Research (CSIR), Department of Science and Technology (DST), and University Grants Commission (UGC). For medical research, these include the Indian Council for Medical Research (ICMR), CSIR, DST and Department of Biotechnology (DBT). For applied research, these include the CSIR, DBT and Science and Engineering Research Council (SERC).

Other funding authorities are the Defence Research Development Organisation (DRDO), the Indian Council of Agricultural Research (ICAR), the Indian Space Research Organisation (ISRO), the Department of Ocean Development (DOD), the Indian Council for Social Science Research (ICSSR), and the Ministry of Environment and Forests (MEF) etc.[20]

Ireland edit

Irish funding councils include the Irish Research Council (IRC) and the Science Foundation Ireland. The prior Irish Research Council for Science, Engineering and Technology (IRCSET) and the Irish Research Council for the Humanities and Social Sciences (IRCHSS) were merged to form the IRC in March 2012.[21]

The Netherlands edit

Dutch research funding agencies include Nederlandse Organisatie voor Wetenschappelijk Onderzoek (NWO) [1] and Agentschap NL [2]. In 2016, the Netherlands began trials for Self-Organized Funding Allocation (SOFA), a novel method of distributing research funds which proponents believe may have advantages compared to the grant system.[22][23]

Pakistan edit

The Government of Pakistan has mandated that a certain percentage of gross revenue generated by all telecom service providers be allocated to development and research of information and communication technologies. The National ICT R&D Fund was established in January 2007.

Russia edit

Under the Soviet Union, much research was routinely suppressed. Now science in Russia is supported by state and private funds. From the state: the Russian Humanitarian Scientific Foundation (http://www.rfh.ru), the Russian Foundation for Basic Research (www.rfbr.ru), the Russian Science Foundation (http://rscf.ru)

Switzerland edit

Swiss research funding agencies include the Swiss National Science Foundation (SNSF), the innovation promotion agency CTI (CTI/KTI), Ressortforschung des Bundes [3], and Eidgenössische Stiftungsaufsicht [4].

United Kingdom edit

Main article: Research Councils UK

In the United Kingdom, the Haldane principle, that decisions about what to spend research funds on should be made by researchers rather than politicians, is still influential in research policy. There are several university departments with a focus on science policy, such as the Science Policy Research Unit. There are seven grant-awarding Research Councils:

United States edit

Main article: Science policy of the United States

The United States has a long history of government support for science and technology. Science policy in the United States is the responsibility of many organizations throughout the federal government. Much of the large-scale policy is made through the legislative budget process of enacting the yearly federal budget. Further decisions are made by the various federal agencies which spend the funds allocated by Congress, either on in-house research or by granting funds to outside organizations and researchers.

Research funding agencies in the United States are spread among many different departments, which include:

See also edit

Further reading edit

Books edit

Science the Endless Frontier.[24]

Pasteur's Quadrant: Basic Science and Technological Innovation[25]

Beyond Sputnik: U.S. Science Policy in the 21st Century[26]

The Honest Broker: Making Sense of Science in Policy and Politics[27]

How Economics Shapes Science[28]

Frontiers Of Illusion: Science, Technology, and the Politics of Progress[29]

Science Policy Up Close[30]

Dangerous Science: Science Policy and Risk Analysis for Scientists and Engineers[31]

Journals edit

Issues in Science and Technology[32]

Science and Public Policy[33]

Research Policy[34]

Journal of Science Policy and Governance[35]

References edit

  1. ^ Francesca Bray (1984), Science and Civilisation in China VI.2 Agriculture
  2. ^ Joseph Needham, Science and Civilisation in China
  3. ^ Galileo (1638) Two New Sciences, Salviati, first day of the dialogs
  4. ^ Sir Francis Bacon (1624). New Atlantis
  5. ^ PNAS Submission Guidelines
  6. ^ Vannevar Bush (July 1945), "Science, the Endless Frontier"
  7. ^ Clemins, Patrick. "R&D in the President's FY 2011 Budget". Retrieved 20 August 2010.
  8. ^ Howell, Elizabeth; April 30, Space com Contributor |; ET, 2015 12:46am (30 April 2015). "What Is DARPA?". Space.com. Retrieved 2019-02-08. {{cite web}}: |first2= has generic name (help)
  9. ^ Gomory, Ralph (1983). "Technology Development". Science. 220 (4597): 576–580. Bibcode:1983Sci...220..576G. doi:10.1126/science.220.4597.576. PMID 17749515. S2CID 40692163.
  10. ^ "Ground X-Vehicle Technologies (GXV-T)". www.darpa.mil. Retrieved 2019-02-08.
  11. ^ Gallagher, Ryan; Moltke, Henrik (2016-11-16). "Titanpointe: The NSA's Spy Hub in New York, Hidden in Plain Sight". The Intercept. Retrieved 2019-02-08.
  12. ^ Vuong, Quan-Hoang (January 1, 2018). "The (ir)rational consideration of the cost of science in transition economies". Nature Human Behaviour. 2 (1): 5. doi:10.1038/s41562-017-0281-4. PMID 30980055.
  13. ^ Suplee, Curt (1999) Physics In The 20th Century Harry N. Abrams Inc, 58-63.
  14. ^ Vuong, Quan-Hoang (2020). "Reform retractions to make them more transparent". Nature. 582 (7811): 149. Bibcode:2020Natur.582..149V. doi:10.1038/d41586-020-01694-x. S2CID 219529301.
  15. ^ "Public funding bodies". Graduate Prospects. Retrieved 2007-02-19.
  16. ^ "Home". nce.gc.ca.
  17. ^ "FAPESP - Fundação de Amparo à Pesquisa do Estado de São Paulo".
  18. ^ "EU Science Hub - European Commission".
  19. ^ See Horizon 2020 – the EU's new research and innovation programme http://europa.eu/rapid/press-release_MEMO-13-1085_en.htm
  20. ^ . www.unom.ac.in. Archived from the original on 2010-08-29.
  21. ^ "About Us". Irish Research Council. Retrieved 16 January 2014.
  22. ^ Coelho, Andre. "NETHERLANDS: A radical new way do fund science | BIEN". Retrieved 2 June 2019.
  23. ^ Bollen, Johan (8 August 2018). "Who would you share your funding with?". Nature. 560 (7717): 143. Bibcode:2018Natur.560..143B. doi:10.1038/d41586-018-05887-3. PMID 30089925.
  24. ^ Bush, Vannevar. (1960). Science, the endless frontier : a report to the President on a Program for Postwar Scientific Research (Repr ed.). Washington: National Science Foundation. ISBN 978-1-59740-026-8. OCLC 635336648.
  25. ^ Stokes, Donald E. (1997). Pasteur's quadrant : basic science and technological innovation. Brookings Institution. Washington, D.C. ISBN 0-8157-8178-4. OCLC 36656380.{{cite book}}: CS1 maint: location missing publisher (link)
  26. ^ Neal, Homer A. (2008). Beyond Sputnik : U.S. science policy in the twenty-first century. Smith, Tobin L., 1969-, McCormick, Jennifer B., 1966-. Ann Arbor: University of Michigan Press. ISBN 978-0-472-02745-3. OCLC 671654179.
  27. ^ Pielke, Roger A., Jr., 1968- (2007). The honest broker : making sense of science in policy and politics. Cambridge: Cambridge University Press. ISBN 978-0-511-27948-5. OCLC 162145073.{{cite book}}: CS1 maint: multiple names: authors list (link)
  28. ^ Stephan, Paula E. (2012). How economics shapes science. Cambridge, Mass.: Harvard University Press. ISBN 978-0-674-04971-0. OCLC 709670355.
  29. ^ Sarewitz, Daniel R. (1996). Frontiers of illusion : science, technology, and the politics of progress. Philadelphia: Temple University Press. ISBN 978-1-4399-0372-8. OCLC 646068257.
  30. ^ Marburger, John H., III (John Harmen), 1941-2011 (10 February 2015). Science policy up close. Crease, Robert P. Cambridge, Massachusetts. ISBN 978-0-674-41709-0. OCLC 875999943.{{cite book}}: CS1 maint: location missing publisher (link) CS1 maint: multiple names: authors list (link)
  31. ^ Rozell, Daniel J. (2020-02-04). Dangerous Science Science: Policy and Risk Analysis for Scientists and Engineers. Ubiquity Press. doi:10.5334/bci. ISBN 978-1-911529-88-0. S2CID 213952232.
  32. ^ "Issues in Science and Technology".
  33. ^ "Science and Public Policy | Oxford Academic". OUP Academic. Retrieved 2020-04-08.
  34. ^ "Research Policy | Journal". ScienceDirect. Retrieved 2020-04-08.
  35. ^ "Journal of Science Policy and Governance".

External links edit

  •   Media related to Science policy at Wikimedia Commons

October 31, 2023
science, policy, concerned, with, allocation, resources, conduct, science, towards, goal, best, serving, public, interest, topics, include, funding, science, careers, scientists, translation, scientific, discoveries, into, technological, innovation, promote, c. Science policy is concerned with the allocation of resources for the conduct of science towards the goal of best serving the public interest Topics include the funding of science the careers of scientists and the translation of scientific discoveries into technological innovation to promote commercial product development competitiveness economic growth and economic development Science policy focuses on knowledge production and role of knowledge networks collaborations and the complex distributions of expertise equipment and know how Understanding the processes and organizational context of generating novel and innovative science and engineering ideas is a core concern of science policy Science policy topics include weapons development health care and environmental monitoring Graphical summary of a position paper on proposed changes to science policy in the Netherlands around academic incentive and reward structuresScience policy thus deals with the entire domain of issues that involve science A large and complex web of factors influences the development of science and engineering that includes government science policymakers private firms including both national and multi national firms social movements media non governmental organizations universities and other research institutions In addition science policy is increasingly international as defined by the global operations of firms and research institutions as well as by the collaborative networks of non governmental organizations and of the nature of scientific inquiry itself Contents 1 History 2 Philosophies of science policy 2 1 Basic versus applied research 2 2 Utilitarian versus monumental science policy 2 3 Scholastic conservation 3 By country 3 1 Australia 3 2 Canada 3 3 Brazil 3 4 European Union 3 5 Germany 3 6 India 3 7 Ireland 3 8 The Netherlands 3 9 Pakistan 3 10 Russia 3 11 Switzerland 3 12 United Kingdom 3 13 United States 4 See also 5 Further reading 5 1 Books 5 2 Journals 6 References 7 External linksHistory editMain article History of science policy State policy has influenced the funding of public works and science for thousands of years dating at least from the time of the Mohists who inspired the study of logic during the period of the Hundred Schools of Thought and the study of defensive fortifications during the Warring States period in China General levies of labor and grain were collected to fund great public works in China including the accumulation of grain for distribution in times of famine 1 for the building of levees to control flooding by the great rivers of China for the building of canals and locks to connect rivers of China some of which flowed in opposite directions to each other 2 and for the building of bridges across these rivers These projects required a civil service the scholars some of whom demonstrated great mastery of hydraulics In Italy Galileo noted that individual taxation of minute amounts could fund large sums to the State which could then fund his research on the trajectory of cannonballs noting that each individual soldier was being paid from coin collected by a general tax of pennies and farthings while even a million of gold would not suffice to pay the entire army 3 In Great Britain Lord Chancellor Sir Francis Bacon had a formative effect on science policy with his identification of experiments of light more penetrating into nature than what others know 4 which today we call the crucial experiment Governmental approval of the Royal Society recognized a scientific community which exists to this day British prizes for research spurred the development of an accurate portable chronometer which directly enabled reliable navigation and sailing on the high seas and also funded Babbage s computer The professionalization of science begun in the nineteenth century was partly enabled by the creation of scientific organizations such as the National Academy of Sciences the Kaiser Wilhelm Institute and State funding of universities of their respective nations In the United States a member of the National Academy of Sciences can sponsor a Direct Submission for publication in the Proceedings of the National Academy of Sciences 5 PNAS serves as a channel to recognize research of importance to at least one member of the National Academy of Sciences Public policy can directly affect the funding of capital equipment intellectual infrastructure for industrial research by providing tax incentives to those organizations who fund research Vannevar Bush director of the office of scientific research and development for the U S government in July 1945 wrote Science is a proper concern of government 6 Vannevar Bush directed the forerunner of the National Science Foundation and his writings directly inspired researchers to invent the hyperlink and the computer mouse The DARPA initiative to support computing was the impetus for the Internet Protocol stack In the same way that scientific consortiums like CERN for high energy physics have a commitment to public knowledge access to this public knowledge in physics led directly to CERN s sponsorship of development of the World Wide Web and standard Internet access for all Philosophies of science policy editThis section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed November 2010 Learn how and when to remove this template message Basic versus applied research edit The programs that are funded are often divided into four basic categories basic research applied research development and facilities and equipment 7 not verified in body Translational research is a newer concept that seeks to bridge the gap between basic science and practical applications Basic science attempts to stimulate breakthroughs Breakthroughs often lead to an explosion of new technologies and approaches Once the basic result is developed it is widely published however conversion into a practical product is left for the free market However many governments have developed risk taking research and development organizations to take basic theoretical research over the edge into practical engineering In the U S this function is performed by DARPA 8 In contrast technology development is a policy in which engineering the application of science is supported rather than basic science 9 The emphasis is usually given to projects that increase important strategic or commercial engineering knowledge citation needed The most extreme dubious discuss success story is undoubtedly the Manhattan Project that developed nuclear weapons Another remarkable success story was the X vehicle studies that gave the US a lasting lead in aerospace technologies 10 These exemplify two disparate approaches The Manhattan Project was huge and spent freely on the most risky alternative approaches The project members believed that failure would result in their enslavement or destruction by Nazi Germany Each X project built an aircraft whose only purpose was to develop a particular technology The plan was to build a few cheap aircraft of each type fly a test series often to the destruction of an aircraft and never design an aircraft for a practical mission The only mission was technology development 11 A number of high profile technology developments have failed The US Space Shuttle failed to meet its cost or flight schedule goals Most observers explain the project as over constrained the cost goals too aggressive the technology and mission too underpowered and undefined The Japanese fifth generation computer systems project met every technological goal but failed to produce commercially important artificial intelligence Many observers who believe that the Japanese tried to force engineering beyond available science by brute investment Half the amount spent on basic research rather might have produced ten times the result citation needed Utilitarian versus monumental science policy edit Utilitarian policies prioritize scientific projects that significantly reduce suffering for larger numbers of people This approach would mainly consider the numbers of people that can be helped by a research policy Research is more likely to be supported when it costs less and has greater benefits Utilitarian research often pursues incremental improvements rather than dramatic advancements in knowledge or break through solutions which are more commercially viable In contrast monumental science is a policy in which science is supported for the sake of a greater understanding of the universe rather than for specific short term practical goals This designation covers both large projects often with large facilities and smaller research that does not have obvious practical applications and are often overlooked While these projects may not always have obvious practical outcomes they provide education of future scientists and advancement of scientific knowledge of lasting worth about the basic building blocks of science 12 Practical outcomes do result from many of these monumental science programs Sometimes these practical outcomes are foreseeable and sometimes they are not A classic example of a monumental science program focused towards a practical outcome is the Manhattan project An example of a monumental science program that produces unexpected practical outcome is the laser Coherent light the principle behind lasing was first predicted by Einstein in 1916 but not created until 1954 by Charles H Townes with the maser The breakthrough with the maser led to the creation of the laser in 1960 by Theodore Maiman The delay between the theory of coherent light and the production of the laser was partially due to the assumption that it would be of no practical use 13 Scholastic conservation edit This policy approach prioritizes efficiently teaching all available science to those who can use it rather than investing in new science In particular the goal is not to lose any existing knowledge and to find new practical ways to apply the available knowledge The classic success stories of this method occurred in the 19th century U S land grant universities which established a strong tradition of research in practical agricultural and engineering methods More recently the Green Revolution prevented mass famine over the last thirty years The focus unsurprisingly is usually on developing a robust curriculum and inexpensive practical methods to meet local needs By country editMost developed countries usually have a specific national body overseeing national science including technology and innovation policy Many developing countries follow the same fashion Many governments of developed countries provide considerable funds primarily to universities for scientific research in fields such as physics and geology as well as social science research in fields such as economics and history Much of this is not intended to provide concrete results that may be commercialisable although research in scientific fields may lead to results that have such potential Most university research is aimed at gaining publication in peer reviewed academic journals 14 A funding body is an organisation that provides research funding in the form of research grants or scholarships Research councils are funding bodies that are government funded agencies engaged in the support of research in different disciplines and postgraduate funding Funding from research councils is typically competitive As a general rule more funding is available in science and engineering disciplines than in the arts and social sciences 15 Australia edit In Australia the two main research councils are the Australian Research Council and the National Health and Medical Research Council Canada edit In Canada the three main research councils Tri Council are the Social Sciences and Humanities Research Council SSHRC the Natural Sciences and Engineering Research Council NSERC and the Canadian Institutes of Health Research CIHR Additional research funding agencies include the Canada Foundation for Innovation Genome Canada Sustainable Development Technology Canada and several Tri Council supported Networks of Centres of Excellence 16 Brazil edit In Brazil two important research agencies are the National Council for Scientific and Technological Development CNPq Portuguese Conselho Nacional de Desenvolvimento Cientifico e Tecnologico an organization of the Brazilian federal government under the Ministry of Science and Technology and Sao Paulo Research Foundation FAPESP Portuguese Fundacao de Amparo a Pesquisa do Estado de Sao Paulo a public foundation located in the state of Sao Paulo Brazil 17 European Union edit The science policy of the European Union is carried out through the European Research Area a system which integrates the scientific resources of member nations and acts as a common market for research and innovation The European Union s executive body the European Commission has a Directorate General for Research which is responsible for the Union s science policy In addition the Joint Research Centre provides independent scientific and technical advice to the European Commission and Member States of the European Union EU in support of EU policies 18 There is also the recently established European Research Council the first European Union funding body set up to support investigator driven research There are also European science agencies that operate independently of the European Union such as the European Science Foundation European Space Agency and the European Higher Education Area created by the Bologna process The European environmental research and innovation policy addresses global challenges of pivotal importance for the well being of European citizens within the context of sustainable development and environmental protection Research and innovation in Europe is financially supported by the programme Horizon 2020 which is also open to participation worldwide 19 Germany edit German research funding agencies include the Deutsche Forschungsgemeinschaft which covers both science and humanities India edit Research funding by the Government of India comes from a number of sources For basic science and technology research these include the Council for Scientific and Industrial Research CSIR Department of Science and Technology DST and University Grants Commission UGC For medical research these include the Indian Council for Medical Research ICMR CSIR DST and Department of Biotechnology DBT For applied research these include the CSIR DBT and Science and Engineering Research Council SERC Other funding authorities are the Defence Research Development Organisation DRDO the Indian Council of Agricultural Research ICAR the Indian Space Research Organisation ISRO the Department of Ocean Development DOD the Indian Council for Social Science Research ICSSR and the Ministry of Environment and Forests MEF etc 20 Ireland edit Irish funding councils include the Irish Research Council IRC and the Science Foundation Ireland The prior Irish Research Council for Science Engineering and Technology IRCSET and the Irish Research Council for the Humanities and Social Sciences IRCHSS were merged to form the IRC in March 2012 21 The Netherlands edit Dutch research funding agencies include Nederlandse Organisatie voor Wetenschappelijk Onderzoek NWO 1 and Agentschap NL 2 In 2016 the Netherlands began trials for Self Organized Funding Allocation SOFA a novel method of distributing research funds which proponents believe may have advantages compared to the grant system 22 23 Pakistan edit The Government of Pakistan has mandated that a certain percentage of gross revenue generated by all telecom service providers be allocated to development and research of information and communication technologies The National ICT R amp D Fund was established in January 2007 Russia edit Under the Soviet Union much research was routinely suppressed Now science in Russia is supported by state and private funds From the state the Russian Humanitarian Scientific Foundation http www rfh ru the Russian Foundation for Basic Research www rfbr ru the Russian Science Foundation http rscf ru Switzerland edit Swiss research funding agencies include the Swiss National Science Foundation SNSF the innovation promotion agency CTI CTI KTI Ressortforschung des Bundes 3 and Eidgenossische Stiftungsaufsicht 4 United Kingdom edit Main article Research Councils UK In the United Kingdom the Haldane principle that decisions about what to spend research funds on should be made by researchers rather than politicians is still influential in research policy There are several university departments with a focus on science policy such as the Science Policy Research Unit There are seven grant awarding Research Councils Arts and Humanities Research Council AHRC Biotechnology and Biological Sciences Research Council BBSRC Economic and Social Research Council ESRC Engineering and Physical Sciences Research Council EPSRC Medical Research Council MRC Natural Environment Research Council NERC Science and Technology Facilities Council STFC United States edit Main article Science policy of the United States The United States has a long history of government support for science and technology Science policy in the United States is the responsibility of many organizations throughout the federal government Much of the large scale policy is made through the legislative budget process of enacting the yearly federal budget Further decisions are made by the various federal agencies which spend the funds allocated by Congress either on in house research or by granting funds to outside organizations and researchers Research funding agencies in the United States are spread among many different departments which include Defense Advanced Research Projects Agency DARPA United States Department of Energy Office of Science National Institutes of Health biomedical research National Science Foundation fundamental research and education in all the non medical fields of science and engineering Office of Naval ResearchSee also editBig Science Evidence based policy Funding bias Funding of science History of military science History of science policy List of books about the politics of science List of funding opportunity databases Metascience Open access Operations research Office of Science and Technology Policy Patent Politicization of science Right to science and culture Science of science policy Small Science Self Organized Funding Allocation Intellectual property policyFurther reading editBooks edit Science the Endless Frontier 24 Pasteur s Quadrant Basic Science and Technological Innovation 25 Beyond Sputnik U S Science Policy in the 21st Century 26 The Honest Broker Making Sense of Science in Policy and Politics 27 How Economics Shapes Science 28 Frontiers Of Illusion Science Technology and the Politics of Progress 29 Science Policy Up Close 30 Dangerous Science Science Policy and Risk Analysis for Scientists and Engineers 31 Journals edit Issues in Science and Technology 32 Science and Public Policy 33 Research Policy 34 Journal of Science Policy and Governance 35 References edit Francesca Bray 1984 Science and Civilisation in China VI 2 Agriculture Joseph Needham Science and Civilisation in China Galileo 1638 Two New Sciences Salviati first day of the dialogs Sir Francis Bacon 1624 New Atlantis PNAS Submission Guidelines Vannevar Bush July 1945 Science the Endless Frontier Clemins Patrick R amp D in the President s FY 2011 Budget Retrieved 20 August 2010 Howell Elizabeth April 30 Space com Contributor ET 2015 12 46am 30 April 2015 What Is DARPA Space com Retrieved 2019 02 08 a href Template Cite web html title Template Cite web cite web a first2 has generic name help Gomory Ralph 1983 Technology Development Science 220 4597 576 580 Bibcode 1983Sci 220 576G doi 10 1126 science 220 4597 576 PMID 17749515 S2CID 40692163 Ground X Vehicle Technologies GXV T www darpa mil Retrieved 2019 02 08 Gallagher Ryan Moltke Henrik 2016 11 16 Titanpointe The NSA s Spy Hub in New York Hidden in Plain Sight The Intercept Retrieved 2019 02 08 Vuong Quan Hoang January 1 2018 The ir rational consideration of the cost of science in transition economies Nature Human Behaviour 2 1 5 doi 10 1038 s41562 017 0281 4 PMID 30980055 Suplee Curt 1999 Physics In The 20th Century Harry N Abrams Inc 58 63 Vuong Quan Hoang 2020 Reform retractions to make them more transparent Nature 582 7811 149 Bibcode 2020Natur 582 149V doi 10 1038 d41586 020 01694 x S2CID 219529301 Public funding bodies Graduate Prospects Retrieved 2007 02 19 Home nce gc ca FAPESP Fundacao de Amparo a Pesquisa do Estado de Sao Paulo EU Science Hub European Commission See Horizon 2020 the EU s new research and innovation programme http europa eu rapid press release MEMO 13 1085 en htm Interdisciplinary www unom ac in Archived from the original on 2010 08 29 About Us Irish Research Council Retrieved 16 January 2014 Coelho Andre NETHERLANDS A radical new way do fund science BIEN Retrieved 2 June 2019 Bollen Johan 8 August 2018 Who would you share your funding with Nature 560 7717 143 Bibcode 2018Natur 560 143B doi 10 1038 d41586 018 05887 3 PMID 30089925 Bush Vannevar 1960 Science the endless frontier a report to the President on a Program for Postwar Scientific Research Repr ed Washington National Science Foundation ISBN 978 1 59740 026 8 OCLC 635336648 Stokes Donald E 1997 Pasteur s quadrant basic science and technological innovation Brookings Institution Washington D C ISBN 0 8157 8178 4 OCLC 36656380 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Neal Homer A 2008 Beyond Sputnik U S science policy in the twenty first century Smith Tobin L 1969 McCormick Jennifer B 1966 Ann Arbor University of Michigan Press ISBN 978 0 472 02745 3 OCLC 671654179 Pielke Roger A Jr 1968 2007 The honest broker making sense of science in policy and politics Cambridge Cambridge University Press ISBN 978 0 511 27948 5 OCLC 162145073 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link Stephan Paula E 2012 How economics shapes science Cambridge Mass Harvard University Press ISBN 978 0 674 04971 0 OCLC 709670355 Sarewitz Daniel R 1996 Frontiers of illusion science technology and the politics of progress Philadelphia Temple University Press ISBN 978 1 4399 0372 8 OCLC 646068257 Marburger John H III John Harmen 1941 2011 10 February 2015 Science policy up close Crease Robert P Cambridge Massachusetts ISBN 978 0 674 41709 0 OCLC 875999943 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link CS1 maint multiple names authors list link Rozell Daniel J 2020 02 04 Dangerous Science Science Policy and Risk Analysis for Scientists and Engineers Ubiquity Press doi 10 5334 bci ISBN 978 1 911529 88 0 S2CID 213952232 Issues in Science and Technology Science and Public Policy Oxford Academic OUP Academic Retrieved 2020 04 08 Research Policy Journal ScienceDirect Retrieved 2020 04 08 Journal of Science Policy and Governance External links edit nbsp Media related to Science policy at Wikimedia Commons Retrieved from https en wikipedia org w index php title Science policy amp oldid 1173930960, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.