- Science education
Science education is the field concerned with sharing
science contentand processwith individuals not traditionally considered part of the scientific community. The target individuals may be children, college students, or adults within the general public. The field of science education comprises science content, some sociology, and some teaching pedagogy.The standards for science education provide expectations for the development of understanding for students through the entire course of their k-12 education. The traditional subjects included in the standards are physical, life, and earth and space sciences.
Science education in secondary schools began in the UK around 1870, but it was not widespread until much later. The first step came when the British Academy for the Advancement of Science (BAAS) published a report in 1867 (Layton, 1981). BAAS promoted teaching of “pure science” and training of the “scientific habit of mind.” The progressive education movement of the time supported the ideology of mental training through the sciences. BAAS emphasized separately pre-professional training in secondary science education. In this way, future BAAS members could be prepared.
The initial development of science teaching was slowed by the lack of qualified teachers. One key development was the founding of the first London School Board in 1870, which discussed the school curriculum; another was the initiation of courses to supply the country with trained science teachers. In both cases the influence of
Thomas Henry Huxleywas critical (see especially Thomas Henry Huxley#Educational influence). John Tyndallwas also influential in the teaching of physical science. [Bibby, Cyril 1959. "T.H. Huxley: scientist, humanist and educator". Watts, London.]
In the US, science education was a scatter of subjects prior to its standardization in the 1890’s (Del Giorno, 1969). The development of a science curriculum in the US emerged gradually after extended debate between two ideologies, citizen science and pre-professional training. As a result of a conference 30 leading secondary and college educators in Florida, the National Education Association appointed a Committee of Ten in 1892 which had authority to organize future meetings and appoint subject matter committees of the major subjects taught in U.S. secondary schools . The committee was composed of ten educators (all men) and was chaired by Charles Eliot of Harvard University. The Committee of Ten met, and appointed nine conferences committees (Latin, Greek, English, Other Modern Languages, Mathematics, History, Civil Government and Political Economy, and three in science). The three conference committees appointed for science: (1) physics, astronomy, and chemistry; (2) natural history; and (3) geography. Each committee, appointed by the Committee of Ten, was composed of ten leading specialists from colleges and normal schools, and secondary schools. Each committee met in a different location in the U.S. The three science committees met for three days in the Chicago area. Committee reports were submitted to the Committee of Ten which met for four days in New York to create a comprehensive report (NEA, 1894). In 1894, the NEA published the results of work of these conference committees (NEA, 1894).
Of particular interest here is the Committee of Ten recommendations for the science curriculum. It recommended four possible courses of study:Three of the courses of study had the following science recommendations
* High School Science (9-12) Grade 9: Physical Geography (3p) Grade 10: Physics(3p), Botany or Zoology (3p); Grade 11: Astronomy 1/2 year & Meteorology, 1/2 year (3p) Grade 12: Chemistry (3p) Geology or physiography, 1/2 year & (3p) Anatomy, physiology, and hygiene, 1/2 year
For the classical course of studies Greek replaced many of the sciences
Grade 9: Physical geography (3p) Grade 10: Physics (3p), Grade 11: Grade 12: Chemistry (3p) See Sheppard & Robbins (2007) For a more full discussion of the recommendations of the Committee of Ten.
The curriculum shown above has been largely replaced by the physical/earth science or biology, chemistry, and physics sequence in most high schools. According to the Committee of Ten, the goal of high school was to prepare all students to do well in life, contributing to their well-being and the good of society. Another goal was to prepare some students to succeed in college. [www.nd.edu/rbarger/www7/neacom10.html]
This committee supported the citizen science approach focused on mental training and withheld performance in science studies from consideration for college entrance (Hurd, 1991). The BAAS encouraged their longer standing model in the UK (Jenkins, 1985). The US adopted a curriculum was characterized as follows (NEA, 1894):
* Elementary science should focus on simple natural phenomena (nature study) by means of experiments carried out "in-the-field."
* Secondary science should focus on laboratory work and the committees prepared lists of specific experiments
* Teaching of facts and principles
* College preparation
The format of shared mental training and pre-professional training consistently dominated the curriculum from its inception to now. However, the movement to incorporate a humanistic approach, such as is
science, technology, society and environment educationis growing and being implemented more broadly in the late 20th century (Aikenhead, 1994). Reports by the American Academy for the Advancement of Science (AAAS), including Project 2061, and by the National Committee on Science Education Standards and Assessment detail goals for science education that link classroom science to practical applications and societal implications.
Whilst public image of science education may be one of simply learning facts
by rote, science education in recent history also generally concentrates on the teaching of science conceptsand the addressing misconceptions that learners may hold regarding science concepts or other content. Research shows that students will retain knowledge for a longer period of time if they are involved in more hands on activities.
One the most approachable and important documents about science education is the volume "How People Think" by
John D. Bransford, et al. In this compact and highly digested volume, the fruit of massive research into student thinking is presented as having three key findings:; Preconceptions : Prior ideas about how things work are remarkably tenacious and an educator must explicitly address a students' specific misconceptions if the student is to abandon his misconception in favour of another explanation. Therefore, it is essential that educators know how to learn about student preconceptions and make this a regular part of their planning.; Factual Knowledge : In order to become truly literate in an area of science, students must, "(a) have a deep foundation of factual knowledge, (b) understand facts and ideas in the context of a conceptual framework, and (c) organize knowledge in ways that facilitate retrieval and application." [http://www.nap.edu/html/howpeople1/] ; Metacognition : Students will benefit from thinking about their thinking and their learning. They must be taught ways of evaluating their knowledge and what they don't know, evaluating their methods of thinking, and evaluating their conclusions.
In many U.S. states,
K-12 educators must adhere to rigid standards or frameworks of what content is to be taught to which age groups. Unfortunately, this often means teachers rush to "cover" the material, without truly "teaching" it. In addition, the "process" of science is often overlooked, such as the scientific method, and critical thinking, producing students who can pass multiple choice tests (such as the New York Regentsexams and the MassachusettsMCAS), but cannot solve complex problems. Although at the college level American science education tends to be less regulated, it is actually more rigorous, with teachers and professors fitting more content into the same time period.
In 1996, the
U.S. National Academy of Sciencesof the U.S. National Academiesproduced the National Science Education Standardswhich is available online for free in multiple forms. Its focus on inquiry-based science, rather than memorization-based science education, was somewhat controversial at the time, but has been shown to be more effective as a model for teaching science, if less amenable to multiple-choice tests.There are eight categories of national science education standards. These categories are unifying concepts and processes, science as inquiry, physical science, life science, earth and space science, science and technology, science in personal and social perspectives, and history and nature of science(www.nap.edu/readingroo/books/nses/6a.html).
Concern about science education and science standards has often been driven by worries that American students lag behind their peers in
international rankings. [http://www.publicagenda.org/issues/factfiles_detail.cfm?issue_type=education&list=13] One notable example was the wave of education reformsimplemented after the Soviet Unionlaunched its Sputnik satellitein 1957. [http://www.nationalacademies.org/sputnik/ruther1.htm] In recent years, business leaders such as Microsoft Chairman Bill Gateshave called for more emphasis on science education, saying the United States risks losing its economic edge. [http://www.businessroundtable.org/newsroom/document.aspx?qs=5876BF807822B0F1AD1448722FB51711FCF50C8)] [http://news.com.com/Gates+Get+U.S.+schools+in+order/2100-1022_3-5692845.html] Public opinion surveys, however, indicate most U.S. parents are complacent about science education and that their level of concern has actually declined in recent years. [http://www.publicagenda.org/research/pdfs/rc0601.pdf]
Physics is taught in high schools, college and graduate schools.
Physics Firstis a popular movement in American high schools. In schools with this curriculum 9th grade students take a course with introductory physics education. This is meant to enrich students understanding of physics, and allow for more detail to be taught in subsequent high school biology, and chemistry classes; it also aims to increase the number of students who go on to take 12th grade physics or AP Physics (both of which are generally electives in American high schools.)
Physics education in the high schools has suffered the last twenty years because of the fact that many states now only require 3 sciences, which can be satisfied by earth/physical science, chemistry, and biology. The fact that many students do not take physics in high school makes it more difficult for those students to take scientific courses in college.
Informal science education
Informal science education is the science teaching and learning that occurs outside of the formal school curriculum in places such as museums, the media and community-based programs. The
National Science Teachers Associationhas created a position statement [http://www.nsta.org/about/positions/informal.aspx] on Informal Science Education to define and encourage science learning in many contexts and throughout the lifespan. Research in informal science education is funded in the United States by the National Science Foundation [National Science Foundation funding for informal science education http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=5361] . The Center for Advancement of Informal Science Education (CAISE) [http://insci.org] provides resources for the informal science education community.
Examples of informal science education include science centers and
science museums, many of which are members of the Association of Science and Technology Centers (ASTC) [http://astc.org/] . The Exploratoriumin San Francisco and The Franklin Institute in Philadelphia are the oldest of this type of museum in the United States. Media include TV programs such as " NOVA", "Newton's Apple", " The Magic School Bus", "Dragonfly TV" and " Dora the Explorer". Examples of community-based programs are 4-HAnimals Science programs, Hands On Science Outreach, NASA and Afterschool Programs [http://education.nasa.gov/divisions/informal/overview/R_NASA_and_Afterschool_Programs.html] and Girls at the Center.
In England and Wales
schools science is generally taught as a single subject scienceuntil age 14-16 then splits into subject-specific A levels ( physics, chemistryand biology). However, the government has since expressed its desire that those pupils who achieve well at the age of 14 should be offered the opportunity to study the three separate sciences from September 2008.Cite web|url=http://news.bbc.co.uk/1/hi/education/7245529.stm|title='Poor lacking' choice of sciences|accessdate=2008-02-22|publisher=British Broadcasting Corporation|year=2008|author=Kim Catcheside|work=BBC News website] In Scotland the subjects split into chemistry, physics and biology at the age of 13-15 for Standard Grades in these subjects.
In September 2006 a new Science programme of study known as 21st Century Science was introduced as a
GCSEoption in UK schools, designed to "give all 14 to 16 year olds a worthwhile and inspiring experience of science" [ [http://www.21stcenturyscience.org/ Welcome to Twenty First Century Science ] ] .
* Layton, D. (1981). The schooling of science in England, 1854-1939. In R. MacLeod & P.Collins (Eds.), "The parliament of science" (pp.188-210). Northwood, England: Science Reviews.
* Del Giorno, B.J. (1969). The impact of chaning scientific knowledge on science education in th United States since 1850. "Science Education", 53, 191-195.
* Hurd, P.D. (1991). Closing the educational gaps between science, technology, and society. "Theory into Practice", 30, 251-259.
* [http://www.worlddeer.org/Markwalker/new1inquiry.doc Teaching Inquiry Science] Downloadable book about teaching science through inquiry.
* Jenkins, E. (1985). History of science education. In T. Husen & T.N. Postlethwaite (Eds.) "International encyclopedia of education" (pp. 4453-4456). Oxford: Pergamon Press.
* National Education Association (1894). Report of the Committee of Ten on Secondary School Studies With The Reports of the Conferences Arranged by The Committee. New York: The American Book Company [http://books.google.com/books?hl=en&id=1WYWAAAAIAAJ&dq=report+of+the+committee+of+ten+on+secondary+school+studies&printsec=frontcover&source=web&ots=UtOEeTn35f&sig=iJfll5ftJ4TPNu3uHl_cB12-Jv8&sa=X&oi=book_result&resnum=1&ct=result#PPR1,M1 Read the Book Online]
* Sheppard, K. & Robbins D. M. (2007). High School Biology Today: What the Committee of Ten Actually Said. CBE-Life Sciences Education. 6 (3) 198-202.
* Aikenhead, G.S. (1994). What is STS teaching? In J. Solomon & G. Aikenhead (Eds.), "STS education: International perspectives on reform" (pp.74-59). New York: Teachers College Press.
* [http://insight.eun.org/en/data/pdf/sciencetechnologyeducation.pdf Dumitru, P. & Joyce, A. (2007) Public-private partnerships for maths, science and technology education. Proceedings of Discovery Days conference.]
* [http://cms2.eun.org/shared/data/pdf/science_brief_2007.pdf European Schoolnet (2007) National and European Initiatives to promote science education in Europe. Insight portal.]
* [http://books.google.com/books?id=N56hHQAACAAJ The Myth of Scientific Literacy] , Morris Herbert Shamos, 1995,
Rutgers University Press, ISBN 0-8135-2196-3
* [http://www.nap.edu/readingroom/books/nses/1.html#why The importance of scientific education]
Environmental groups and resources serving K–12 schools
Epistemology(the study of knowledgeand how we know things)
National Science Education Standards
School science technicians
Science, Technology, Society and Environment Education
* [http://www.ericdigests.org ERIC: Education related articles online]
* [http://www.nap.edu/readingroom/books/nses/ National Science Education Standards]
* [http://unr.edu/homepage/jcannon/ejse/ejse.html Electronic Journal of Science Education]
* [http://www.sciencekids.co.nz Science Education for Children]
* [http://ScienceCastle.com Online Science Classes]
* [http://www.wcer.wisc.edu/archive/nise/ National Institute for Science Education]
* [http://www.project2061.org/publications/bsl/online/bolintro.htm Benchmarks for Science Literacy]
* [http://www.narst.org/ National Association for Research in Science Teaching]
* [http://theaste.org/ The Association for Science Teacher Education]
* [http://www.ejmste.com/ Eurasia Journal of Mathematics, Science & Technology Education]
Wikimedia Foundation. 2010.
Look at other dictionaries:
Science Education — Titre abrégé Sci. Educ. Discipline Biologie Chimie Physiq … Wikipédia en Français
Science Education at the Crossroads — is an annual national academic conference, currently funded by the National Science Foundation, designed to enable various stakeholders in science education to confer in a legitimate and productive manner. The conference also claims to offer an… … Wikipedia
Science Education Resource Center — [ = The Science Education Resource Center (SERC) is an office of Carleton College dedicated to improving undergraduate science education by supporting faculty. Towards this end, the SERC maintains a large web presence and frequently conducts… … Wikipedia
National Center for Science Education — The National Center for Science Education (NCSE) is a non profit organization based in Oakland, California affiliated with the American Association for the Advancement of Science. It is the United States leading anti creationist organization,… … Wikipedia
National Science Education Standards — The National Science Education Standards (NSES) are a set of guidelines for the science education in primary and secondary schools in the United States, as established by the National Research Council in 1996. These provide a set of goals for… … Wikipedia
Marang Center for Mathematics and Science Education — Marang Centre for Mathematics and Science Education Address 27 St. Andrews Road, Parktown Johannesburg, 2193 Private Bag 3, Wits 2050 South Africa Information Established 2005 Head of school Prof. Ruksana Osman … Wikipedia
National Institute of Science Education and Research, Bhubaneswar — Infobox University name = National Institute of Science Education Research (NISER) established = 2007 type = Public city = Bhubaneswar 751 005 state = Orissa country = India campus = Urban website = [http://www.niser.ac.in/ www.niser.ac.in/] The… … Wikipedia
British Centre for Science Education — The British Centre for Science Education (BCSE) is a volunteer run organization in the United Kingdom that has the goal of countering creationism within the UK [According to the logo on the [http://bcseweb.org.uk/index.php/Main/HomePage website… … Wikipedia
Engineering and Science Education Program — The Engineering and Science Education Program (ESEP) is a science and mathematics oriented curriculum devised for high schools in the Philippines. The ESEP program is offered by specialized high schools, whether public or private, supervised by… … Wikipedia
Ministry of Science, Education and Sports (Croatia) — Ministry of Science, Education and Sports Ministarstvo obrazovanja, znanosti i športa Agency overview Formed 31 May 1990 Jurisdiction Government of Croatia Headquarters Donje Svetice 38, Zagreb, Croatia … Wikipedia