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Nuffield Science Project

March 15, 2024

The Nuffield Science Teaching Project was a programme to develop a better approach to teaching science in British[n 1] secondary schools, under the auspices of the Nuffield Foundation. Although not intended as a curriculum, it gave rise to alternative national examinations, and its use of discovery learning was influential in the 1960s and 1970s.

Background edit

In 1957, the Science Masters Association (later amalgamated with the Association of Women Science Teachers as The Association for Science Education) established a Science Teaching Subcommittee, later the Science and Education Subcommittee, led by its chairman, Henry Boulind, a physicist who had attended a UNESCO conference the previous year in Hamburg and come away persuaded that science teaching, particularly in physics, needed to be brought up to date for the post-war atomic age and to become teaching "in and through science". Subject panels in physics, chemistry, biology and general science developed new syllabi for 'O' and 'A' levels which were presented to the Secondary Schools Examination Council in 1960.[1] The Staff Inspector for Science, R. A. R. Tricker, criticised the physics syllabus as overly theoretical[2] and a year's practical trial of the material was conducted in 30 schools. The subcommittee then invited representatives from government and the Institutes of Physics and Chemistry to a meeting in August 1961 at Barrow Court, where the consensus was that outside funding should be sought for a full process to develop curricula and teaching materials.[3] The Nuffield Foundation had also been investigating the problem, and sponsored a meeting at Battersea College of Technology hosted by the Head of Physics, Lewis Elton, in April 1961, and also consulted John Lewis, the senior science master at Malvern College, who had been involved at all stages in the Association's Subcommittee and had been impressed by the science teaching he had seen in a tour of Russia.[4] The hope was to improve British science teaching, and hence British industry, "by persuasion" where Russia had done so "by compulsion".[5][n 2] In December the Nuffield Foundation agreed to fund the effort to improve science education in England and Wales, building on the Science Masters Association's work, but on its own terms, with an initial commitment of £250,000 for three working groups to develop outlines, textbooks, teachers' guides and classroom equipment for the teaching of physics, chemistry and biology to pupils aged 11–15, and the Minister of Education, Sir David Eccles, announced the plan in the House of Commons on 4 April 1962.[6][7][8][9]

History and characteristics edit

For each of the three sciences, a working group was established headed by a full-time organiser, appointed for three years, and including a consultative committee of experts, and six or seven team leaders, expert teachers on one-year appointments who headed local groups of half a dozen science teachers which would develop and test materials. The physics project was organised first, under Donald McGill; the chemistry project was under H. F. Halliwell, and the biology project under W. H. Dowdeswell. The initial focus on the course to 'O' level was extended to 'A' level and a Junior Science Project on primary school teaching was added by 1966;[10][11] later in the 1960s Nuffield also began a Combined Science Project, a Secondary Science Project for pupils who would not take 'O' levels, the Nuffield Language Teaching Programme in modern languages, and programmes in mathematics, classics, and social studies.[12][13] McGill died in March 1963 and was succeeded at the physics project by Eric M. Rogers.[14][15] John Maddox was added as an assistant director of the foundation and coordinator of the project as a whole.[12] In 1966 the development phase came to an end and teachers' guides, pupils' question books and other material were published in time for the school year starting in autumn 1967.[16] Nuffield sponsored Area Committees, training of tutors to train teachers, television programmes on teaching Nuffield science, and two films showing actual chemistry classrooms: Exploring Chemistry and Chemistry by Investigation.[17] The Local Education Authority teachers' centres and specialist centres at teacher training institutions also provided training in Nuffield methods;[13][18] the project itself established the Centre for Science Education at Chelsea College, which was able to grant degrees.[19]

Organisers were charged simply with creating "a coordinated set of materials, for use by teachers in any way they saw fit".[20] The foundation also gave instructions to avoid public announcements or debates for two years.[21] The approach taken in all three sciences was inquiry-based:[19][22][23] teaching "for understanding, not learning" in a manner that was both logical and based on experiments, with pupils "learning through doing",[24] being 'a scientist for a day' and deriving scientific laws through 'guided discovery' rather than 'prov[ing] theory'. The project used an apocryphal Chinese proverb, "I listen and I forget, I see and I remember, I do and I understand" as a motto.[25][26] Halliwell, the chemistry project organiser, has said that he was greatly influenced by Sir Percy Nunn, under whom he studied in the 1920s;[27] another important influence was work in the United States, particularly the Physical Science Study Committee's reformed physics course, with which Rogers had been involved at Princeton University.[26][28] The teachers' guides outlining the class activities were explicitly described as "not a syllabus", but many teachers used them as a "bible".[29][30] Particularly for physics, kits of apparatus for class experiments were developed in association with manufacturers; government money was readily available at the start of the project for schools to purchase equipment and improve their laboratories.[31][32] Distinct Nuffield 'O' and 'A' level examinations were instituted, although they were originally intended only as a temporary measure.[33]

Reception edit

Nuffield biology was not very popular.[34] In chemistry and physics, the Nuffield discovery approach was dominant by the 1970s and had a lasting influence,[35][36][37][38] although more teachers used the materials than taught Nuffield science as the project developers had intended.[39][n 3] At their peak of popularity, the Nuffield 'O' and 'A' level examinations were still only taken by far fewer candidates than the traditional GCEs.[33][40]

The project was developed primarily by academics and teachers in private and selective schools, in the context of the early objective of having comprehensive schools provide a "grammar school education for all",[41][n 4] and the first two years of Nuffield physics and chemistry were found to be difficult even for able pupils.[42][43][44] As a result, the Nuffield Combined Science course, derived from the three distinct science courses, was introduced in 1970 for pupils in the first two years of mixed-ability secondary schools; in 1980, 80% of schools were using this in some way.[42] Its use of worksheets was emulated in other courses in the mid-1970s, such as the Inner London Education Authority's Insight to Science.[45] In 1971 Nuffield Secondary Science was added; this was material from which teachers could develop a course for the Mode 3 CSE examination.[46] Some teachers suggested that the practical work itself discouraged pupils from continuing with chemistry and physics after 'O' level.[47] By the 1980s, with a greater emphasis on educating pupils of all abilities and the introduction of a national curriculum and replacement of the existing examinations by the GCSE, emphasis shifted from teaching theory to making science interesting and relevant and rewarding achievement.[48] A revised version of Nuffield Combined Science, Nuffield 11 to 13, was published in 1986 reflecting this change in focus.[49][50]

Some early research suggested in particular that Nuffield science was less suitable for girls than boys.[51][52] This may be because girls reportedly dislike discovery teaching, but there are indications that teacher enthusiasm is more important,[52] and a study in 1981 found no significant differences between girls' and boys' performance on Nuffield 'O' levels, possibly because few teachers actually use "open-ended" methods.[53]

The fundamental criticism of the discovery approach as a whole is that it inaccurately presents science as "Sherlock Holmes in a white coat", with observation leading directly by induction to theory. A 1996 survey termed it "philosophically unsound and pedagogically unworkable";[54] children cannot realistically reproduce the progression of scientific discovery.[25] Another expert judged Nuffield to have incorporated some particularly "naive" versions of inductivism.[55]

Notes edit

  1. ^ Strictly speaking, the Nuffield programme only applied to England and Wales; schools in Northern Ireland and Scotland were administered separately. However, immediately before joining the project Donald McGill had previously worked for the Scottish Education Department and worked on their alternative 'O' grade syllabus, published in 1963; Woolnough, pp. 95–96; and a Scottish teachers' team developed the mechanics section for Nuffield physics; Jardine, pp. 172+. The Scottish Science for the 70s course was a rival to Nuffield Combined Science; Woolnough, p. 56.
  2. ^ Concern for the competitiveness of British industry was widespread at the time; in 1963 Harold Wilson made a speech urging improvements to education so that Britain would not be disadvantaged in the "white heat of the technological revolution"; cited in Alan Peacock, "The Emergence of Primary Science", in Amos and Boohan, eds., Teaching Science, pp. 71–81, p. 71. This was also an international concern, with science teaching reform in the US acquiring added impetus after Sputnik; Donnelly and Jenkins, p. 28.
  3. ^ Another study in the same period analysed differences in familiarity and attitudes between "high adopters" and "low adopters" of Nuffield chemistry; the percentage of "low adopters" 'using all or most' of the materials at the relevant level was in the 20s; Donnelly and Jenkins, p. 33.
  4. ^ David Turner, "Reform and the Physics Curriculum in Britain and the United States", Comparative Education Review 28.3 (August 1984) 444–53, notes that the Physical Science Study Committee's reformed physics course in the United States had a similar focus on the most able students.

References edit

  1. ^ Brian E. Woolnough, Physics Teaching in Schools, 1960–85: Of People, Policy, and Power, Studies in Curriculum History 8, London/New York: Falmer, 1988, ISBN 9781850002024, pp. 87–88.
  2. ^ John L. Lewis, "Eric Rogers and the Nuffield Physics Project", in Brenda Jennison and Jon Ogborn, eds., Wonder and Delight: Essays in Science Education in honour of the life and work of Eric Rogers 1902–1990, Bristol/Philadelphia: Institute of Physics Publishing, 1994, ISBN 9780750303156, pp. 153–62, p. 153: "The new syllabus even included some physics since 1895. The latter came under criticism from HM Inspectorate as it suggested dogmatic teaching."
  3. ^ Woolnough, pp. 88–90.
  4. ^ Woolnough, p. 93.
  5. ^ Ronald W. Clark, A Biography of the Nuffield Foundation, London: Longman, 1972, ISBN 9780582364875, p. 171.
  6. ^ Clark, pp. 170–71.
  7. ^ Woolnough, pp. 94–95.
  8. ^ Mary Waring, Social Pressures and Curriculum Innovation: A Study of the Nuffield Foundation Science Teaching Project, London: Methuen, 1979, ISBN 9780416708004, pp. 2–3, 82–85.
  9. ^ James F. Donnelly and Edgar W. Jenkins, "Guiding Teachers: The Nuffield Science Teaching Projects", in Science Education: Policy, Professionalism and Change, London: Paul Chapman / Thousand Oaks, California: Sage, 2001, ISBN 9781847876348, pp. 27–41, p. 27.
  10. ^ Clark, pp. 171–73.
  11. ^ Waring, pp. 86–87, 94.
  12. ^ a b Clark, p. 173.
  13. ^ a b Donnelly and Jenkins, p. 29.
  14. ^ Woolnough, pp. 96–98.
  15. ^ Lewis, pp. 156–57.
  16. ^ Waring, p. 193.
  17. ^ Waring, pp. 195–203.
  18. ^ Waring, p. 202.
  19. ^ a b Rob Walker, "Getting Involved in Curriculum Research: A Personal History", in Martin Lawn and Len Barton, eds., Rethinking Curriculum Studies: A Radical Approach, 1981, 2nd ed. Routledge Library Editions: Education 20, London / New York: Routledge, 2012, ISBN 9780415664653, pp. 193–213, p. 193.
  20. ^ Waring, p. 13.
  21. ^ Lewis, p. 156.
  22. ^ Donnelly and Jenkins, p. 28.
  23. ^ Waring, pp. 131–32, with reference to chemistry.
  24. ^ Woolnough, pp. 103–04, with reference to physics.
  25. ^ a b Sandra Amos and Richard Boohan, "The Changing Nature of Science Education", in Sandra Amos and Richard Boohan, eds., Teaching Science in Secondary Schools: A Reader, The Open University, London / New York: RoutledgeFalmer, 2002, ISBN 9780415260718, pp. 3–21, p. 7.
  26. ^ a b Jerry Wellington, "Practical Work in Science: Time for a Re-Appraisal", in Amos and Boohan, eds., Teaching Science, pp. 55–66, p. 56.
  27. ^ Waring, p. 38.
  28. ^ Woolnough, pp. 97–98.
  29. ^ Woolnough, pp. 105, 107.
  30. ^ According to research by R. B. Ingle in the early 1970s with a view to revising the chemistry materials, many chemistry teachers did not have time to read the handbook and simply used the Sample Scheme, an example of how to construct a course; Waring, p. 214.
  31. ^ Woolnough, pp. 165–67.
  32. ^ Jim Jardine, "Apparatus for the Inquiring Mind", in Jennison and Ogborn, eds., Wonder and Delight, pp. 169–80, on development and testing of physics apparatus under Eric Rogers.
  33. ^ a b Woolnough, p. 58.
  34. ^ Woolnough, p. 45.
  35. ^ Woolnough, pp. 54–55, 78.
  36. ^ Amos and Boohan, p. 8.
  37. ^ Donnelly and Jenkins, p. 37.
  38. ^ Douglas P. Newton and Richard Gott, "Process in Lower School Science Textbooks", British Educational Research Journal 15.3 (1989) 249–58, p. 258.
  39. ^ Woolnough, pp. 58–59, citing a 1976 study.
  40. ^ Donnelly and Jenkins, p. 34.
  41. ^ Woolnough, pp. 33–36.
  42. ^ a b Woolnough, p. 55.
  43. ^ Joan Bliss, "Learning Science: Piaget and After", in Amos and Boohan, eds., Teaching Science, pp. 154–63, p. 155, citing a 1971 study.
  44. ^ Anthony W. Pell, "Enjoyment and Attainment in Secondary School Physics", British Educational Research Journal 11.2 (1985) 123–32, p. 123.
  45. ^ Woolnough, pp. 55–56.
  46. ^ Woolnough, p. 59.
  47. ^ Ian Abrahams, Practical Work in Secondary Science: A Minds-On Approach, London / New York: Continuum, 2011, ISBN 9781847065032, pp. 25–26.
  48. ^ Woolnough, pp. 176–78.
  49. ^ Woolnough, p. 60.
  50. ^ Justin Dillon and Alex Manning, "Science Teachers, Science Teaching: Issues and Challenges", in Good Practice in Science Teaching: What Research Has to Say, ed. Jonathan Osborne and Justin Dillon, 2nd ed. Maidenhead / New York: McGraw Hill / The Open University, 2010, ISBN 9780335238590, pp. 6–19, pp. 10–11.
  51. ^ Mary Lewin, "Is Science too Masculine?", Feedback, New Scientist, 27 March 1975, p. 778.
  52. ^ a b Alison Kelly, Girls and Science: An International Study of Sex Differences in School Science Achievement, IEA Monograph Studies 9, Stockholm: Almqvist & Wiksell, 1978, ISBN 9789122001829, pp. 14–15.
  53. ^ Alison Kelly, "Conclusion: Retrieving the Missing Half", in The Missing Half: Girls and Science Education, ed. Alison Kelly, Manchester: Manchester University, 1981, ISBN 9780719007538, pp. 276–97, p. 279, citing Judy Samuel, "Feminism and Science Teaching: Some Classroom Observations", The Missing Half, pp. 247–56, and Jan Harding, "Sex Differences in Science Examinations", The Missing Half, pp. 192–204.
  54. ^ Wellington, p. 56, citing D. Hodson, "Laboratory Work as Scientific Method: Three Decades of Confusion and Distortion", Journal of Curriculum Studies 28.2, 115–35. The Sherlock Holmes descriptor is Wellington's own from an earlier paper.
  55. ^ Rosalind Driver, "The Fallacy of Induction in Science Teaching", in Amos and Boohan, eds., Teaching Science, pp. 133–39, p. 135.

Further reading edit

  • Bruce H. Choppin. "The Introduction of New Science Curricula in England and Wales". Comparative Education Review 18.2, What Do Children Know? (June 1974) 196–206.
  • Jan Harding and Jan Craig. Girls and Science Education Project. Internal Report. Centre for Science Education, Chelsea College, 1978. OCLC 223106405
  • Dr. G. R. Meyer. "Reactions of Pupils to Nuffield Science Teaching Project Trial Materials in England at the Ordinary Level of the General Certificate of Education". Journal of Research in Science Teaching 7.4 (December 1970) 283–302 (pdf, payment required).
  • David Rappaport. "The Nuffield Mathematics Project". Elementary School Journal 71.6 (March 1971) 295–308; reprinted in Barbara J. Reys and Robert E. Reys, eds. Mathematics Curriculum: Issues, Trends, and Future Directions. 72nd Yearbook. Reston, Virginia: National Council of Teachers of Mathematics, 2010. ISBN 9780873536431 (CD-ROM attachment).
  • Mary Waring. "Background to Nuffield Science". History of Education 8.3 (1979) 223–37 (pdf).

External links edit

  • Official history

March 15, 2024
nuffield, science, project, nuffield, science, teaching, project, programme, develop, better, approach, teaching, science, british, secondary, schools, under, auspices, nuffield, foundation, although, intended, curriculum, gave, rise, alternative, national, ex. The Nuffield Science Teaching Project was a programme to develop a better approach to teaching science in British n 1 secondary schools under the auspices of the Nuffield Foundation Although not intended as a curriculum it gave rise to alternative national examinations and its use of discovery learning was influential in the 1960s and 1970s Contents 1 Background 2 History and characteristics 3 Reception 4 Notes 5 References 6 Further reading 7 External linksBackground editIn 1957 the Science Masters Association later amalgamated with the Association of Women Science Teachers as The Association for Science Education established a Science Teaching Subcommittee later the Science and Education Subcommittee led by its chairman Henry Boulind a physicist who had attended a UNESCO conference the previous year in Hamburg and come away persuaded that science teaching particularly in physics needed to be brought up to date for the post war atomic age and to become teaching in and through science Subject panels in physics chemistry biology and general science developed new syllabi for O and A levels which were presented to the Secondary Schools Examination Council in 1960 1 The Staff Inspector for Science R A R Tricker criticised the physics syllabus as overly theoretical 2 and a year s practical trial of the material was conducted in 30 schools The subcommittee then invited representatives from government and the Institutes of Physics and Chemistry to a meeting in August 1961 at Barrow Court where the consensus was that outside funding should be sought for a full process to develop curricula and teaching materials 3 The Nuffield Foundation had also been investigating the problem and sponsored a meeting at Battersea College of Technology hosted by the Head of Physics Lewis Elton in April 1961 and also consulted John Lewis the senior science master at Malvern College who had been involved at all stages in the Association s Subcommittee and had been impressed by the science teaching he had seen in a tour of Russia 4 The hope was to improve British science teaching and hence British industry by persuasion where Russia had done so by compulsion 5 n 2 In December the Nuffield Foundation agreed to fund the effort to improve science education in England and Wales building on the Science Masters Association s work but on its own terms with an initial commitment of 250 000 for three working groups to develop outlines textbooks teachers guides and classroom equipment for the teaching of physics chemistry and biology to pupils aged 11 15 and the Minister of Education Sir David Eccles announced the plan in the House of Commons on 4 April 1962 6 7 8 9 History and characteristics editFor each of the three sciences a working group was established headed by a full time organiser appointed for three years and including a consultative committee of experts and six or seven team leaders expert teachers on one year appointments who headed local groups of half a dozen science teachers which would develop and test materials The physics project was organised first under Donald McGill the chemistry project was under H F Halliwell and the biology project under W H Dowdeswell The initial focus on the course to O level was extended to A level and a Junior Science Project on primary school teaching was added by 1966 10 11 later in the 1960s Nuffield also began a Combined Science Project a Secondary Science Project for pupils who would not take O levels the Nuffield Language Teaching Programme in modern languages and programmes in mathematics classics and social studies 12 13 McGill died in March 1963 and was succeeded at the physics project by Eric M Rogers 14 15 John Maddox was added as an assistant director of the foundation and coordinator of the project as a whole 12 In 1966 the development phase came to an end and teachers guides pupils question books and other material were published in time for the school year starting in autumn 1967 16 Nuffield sponsored Area Committees training of tutors to train teachers television programmes on teaching Nuffield science and two films showing actual chemistry classrooms Exploring Chemistry and Chemistry by Investigation 17 The Local Education Authority teachers centres and specialist centres at teacher training institutions also provided training in Nuffield methods 13 18 the project itself established the Centre for Science Education at Chelsea College which was able to grant degrees 19 Organisers were charged simply with creating a coordinated set of materials for use by teachers in any way they saw fit 20 The foundation also gave instructions to avoid public announcements or debates for two years 21 The approach taken in all three sciences was inquiry based 19 22 23 teaching for understanding not learning in a manner that was both logical and based on experiments with pupils learning through doing 24 being a scientist for a day and deriving scientific laws through guided discovery rather than prov ing theory The project used an apocryphal Chinese proverb I listen and I forget I see and I remember I do and I understand as a motto 25 26 Halliwell the chemistry project organiser has said that he was greatly influenced by Sir Percy Nunn under whom he studied in the 1920s 27 another important influence was work in the United States particularly the Physical Science Study Committee s reformed physics course with which Rogers had been involved at Princeton University 26 28 The teachers guides outlining the class activities were explicitly described as not a syllabus but many teachers used them as a bible 29 30 Particularly for physics kits of apparatus for class experiments were developed in association with manufacturers government money was readily available at the start of the project for schools to purchase equipment and improve their laboratories 31 32 Distinct Nuffield O and A level examinations were instituted although they were originally intended only as a temporary measure 33 Reception editNuffield biology was not very popular 34 In chemistry and physics the Nuffield discovery approach was dominant by the 1970s and had a lasting influence 35 36 37 38 although more teachers used the materials than taught Nuffield science as the project developers had intended 39 n 3 At their peak of popularity the Nuffield O and A level examinations were still only taken by far fewer candidates than the traditional GCEs 33 40 The project was developed primarily by academics and teachers in private and selective schools in the context of the early objective of having comprehensive schools provide a grammar school education for all 41 n 4 and the first two years of Nuffield physics and chemistry were found to be difficult even for able pupils 42 43 44 As a result the Nuffield Combined Science course derived from the three distinct science courses was introduced in 1970 for pupils in the first two years of mixed ability secondary schools in 1980 80 of schools were using this in some way 42 Its use of worksheets was emulated in other courses in the mid 1970s such as the Inner London Education Authority s Insight to Science 45 In 1971 Nuffield Secondary Science was added this was material from which teachers could develop a course for the Mode 3 CSE examination 46 Some teachers suggested that the practical work itself discouraged pupils from continuing with chemistry and physics after O level 47 By the 1980s with a greater emphasis on educating pupils of all abilities and the introduction of a national curriculum and replacement of the existing examinations by the GCSE emphasis shifted from teaching theory to making science interesting and relevant and rewarding achievement 48 A revised version of Nuffield Combined Science Nuffield 11 to 13 was published in 1986 reflecting this change in focus 49 50 Some early research suggested in particular that Nuffield science was less suitable for girls than boys 51 52 This may be because girls reportedly dislike discovery teaching but there are indications that teacher enthusiasm is more important 52 and a study in 1981 found no significant differences between girls and boys performance on Nuffield O levels possibly because few teachers actually use open ended methods 53 The fundamental criticism of the discovery approach as a whole is that it inaccurately presents science as Sherlock Holmes in a white coat with observation leading directly by induction to theory A 1996 survey termed it philosophically unsound and pedagogically unworkable 54 children cannot realistically reproduce the progression of scientific discovery 25 Another expert judged Nuffield to have incorporated some particularly naive versions of inductivism 55 Notes edit Strictly speaking the Nuffield programme only applied to England and Wales schools in Northern Ireland and Scotland were administered separately However immediately before joining the project Donald McGill had previously worked for the Scottish Education Department and worked on their alternative O grade syllabus published in 1963 Woolnough pp 95 96 and a Scottish teachers team developed the mechanics section for Nuffield physics Jardine pp 172 The Scottish Science for the 70s course was a rival to Nuffield Combined Science Woolnough p 56 Concern for the competitiveness of British industry was widespread at the time in 1963 Harold Wilson made a speech urging improvements to education so that Britain would not be disadvantaged in the white heat of the technological revolution cited in Alan Peacock The Emergence of Primary Science in Amos and Boohan eds Teaching Science pp 71 81 p 71 This was also an international concern with science teaching reform in the US acquiring added impetus after Sputnik Donnelly and Jenkins p 28 Another study in the same period analysed differences in familiarity and attitudes between high adopters and low adopters of Nuffield chemistry the percentage of low adopters using all or most of the materials at the relevant level was in the 20s Donnelly and Jenkins p 33 David Turner Reform and the Physics Curriculum in Britain and the United States Comparative Education Review 28 3 August 1984 444 53 notes that the Physical Science Study Committee s reformed physics course in the United States had a similar focus on the most able students References edit Brian E Woolnough Physics Teaching in Schools 1960 85 Of People Policy and Power Studies in Curriculum History 8 London New York Falmer 1988 ISBN 9781850002024 pp 87 88 John L Lewis Eric Rogers and the Nuffield Physics Project in Brenda Jennison and Jon Ogborn eds Wonder and Delight Essays in Science Education in honour of the life and work of Eric Rogers 1902 1990 Bristol Philadelphia Institute of Physics Publishing 1994 ISBN 9780750303156 pp 153 62 p 153 The new syllabus even included some physics since 1895 The latter came under criticism from HM Inspectorate as it suggested dogmatic teaching Woolnough pp 88 90 Woolnough p 93 Ronald W Clark A Biography of the Nuffield Foundation London Longman 1972 ISBN 9780582364875 p 171 Clark pp 170 71 Woolnough pp 94 95 Mary Waring Social Pressures and Curriculum Innovation A Study of the Nuffield Foundation Science Teaching Project London Methuen 1979 ISBN 9780416708004 pp 2 3 82 85 James F Donnelly and Edgar W Jenkins Guiding Teachers The Nuffield Science Teaching Projects in Science Education Policy Professionalism and Change London Paul Chapman Thousand Oaks California Sage 2001 ISBN 9781847876348 pp 27 41 p 27 Clark pp 171 73 Waring pp 86 87 94 a b Clark p 173 a b Donnelly and Jenkins p 29 Woolnough pp 96 98 Lewis pp 156 57 Waring p 193 Waring pp 195 203 Waring p 202 a b Rob Walker Getting Involved in Curriculum Research A Personal History in Martin Lawn and Len Barton eds Rethinking Curriculum Studies A Radical Approach 1981 2nd ed Routledge Library Editions Education 20 London New York Routledge 2012 ISBN 9780415664653 pp 193 213 p 193 Waring p 13 Lewis p 156 Donnelly and Jenkins p 28 Waring pp 131 32 with reference to chemistry Woolnough pp 103 04 with reference to physics a b Sandra Amos and Richard Boohan The Changing Nature of Science Education in Sandra Amos and Richard Boohan eds Teaching Science in Secondary Schools A Reader The Open University London New York RoutledgeFalmer 2002 ISBN 9780415260718 pp 3 21 p 7 a b Jerry Wellington Practical Work in Science Time for a Re Appraisal in Amos and Boohan eds Teaching Science pp 55 66 p 56 Waring p 38 Woolnough pp 97 98 Woolnough pp 105 107 According to research by R B Ingle in the early 1970s with a view to revising the chemistry materials many chemistry teachers did not have time to read the handbook and simply used the Sample Scheme an example of how to construct a course Waring p 214 Woolnough pp 165 67 Jim Jardine Apparatus for the Inquiring Mind in Jennison and Ogborn eds Wonder and Delight pp 169 80 on development and testing of physics apparatus under Eric Rogers a b Woolnough p 58 Woolnough p 45 Woolnough pp 54 55 78 Amos and Boohan p 8 Donnelly and Jenkins p 37 Douglas P Newton and Richard Gott Process in Lower School Science Textbooks British Educational Research Journal 15 3 1989 249 58 p 258 Woolnough pp 58 59 citing a 1976 study Donnelly and Jenkins p 34 Woolnough pp 33 36 a b Woolnough p 55 Joan Bliss Learning Science Piaget and After in Amos and Boohan eds Teaching Science pp 154 63 p 155 citing a 1971 study Anthony W Pell Enjoyment and Attainment in Secondary School Physics British Educational Research Journal 11 2 1985 123 32 p 123 Woolnough pp 55 56 Woolnough p 59 Ian Abrahams Practical Work in Secondary Science A Minds On Approach London New York Continuum 2011 ISBN 9781847065032 pp 25 26 Woolnough pp 176 78 Woolnough p 60 Justin Dillon and Alex Manning Science Teachers Science Teaching Issues and Challenges in Good Practice in Science Teaching What Research Has to Say ed Jonathan Osborne and Justin Dillon 2nd ed Maidenhead New York McGraw Hill The Open University 2010 ISBN 9780335238590 pp 6 19 pp 10 11 Mary Lewin Is Science too Masculine Feedback New Scientist 27 March 1975 p 778 a b Alison Kelly Girls and Science An International Study of Sex Differences in School Science Achievement IEA Monograph Studies 9 Stockholm Almqvist amp Wiksell 1978 ISBN 9789122001829 pp 14 15 Alison Kelly Conclusion Retrieving the Missing Half in The Missing Half Girls and Science Education ed Alison Kelly Manchester Manchester University 1981 ISBN 9780719007538 pp 276 97 p 279 citing Judy Samuel Feminism and Science Teaching Some Classroom Observations The Missing Half pp 247 56 and Jan Harding Sex Differences in Science Examinations The Missing Half pp 192 204 Wellington p 56 citing D Hodson Laboratory Work as Scientific Method Three Decades of Confusion and Distortion Journal of Curriculum Studies 28 2 115 35 The Sherlock Holmes descriptor is Wellington s own from an earlier paper Rosalind Driver The Fallacy of Induction in Science Teaching in Amos and Boohan eds Teaching Science pp 133 39 p 135 Further reading editBruce H Choppin The Introduction of New Science Curricula in England and Wales Comparative Education Review 18 2 What Do Children Know June 1974 196 206 Jan Harding and Jan Craig Girls and Science Education Project Internal Report Centre for Science Education Chelsea College 1978 OCLC 223106405 Dr G R Meyer Reactions of Pupils to Nuffield Science Teaching Project Trial Materials in England at the Ordinary Level of the General Certificate of Education Journal of Research in Science Teaching 7 4 December 1970 283 302 pdf payment required David Rappaport The Nuffield Mathematics Project Elementary School Journal 71 6 March 1971 295 308 reprinted in Barbara J Reys and Robert E Reys eds Mathematics Curriculum Issues Trends and Future Directions 72nd Yearbook Reston Virginia National Council of Teachers of Mathematics 2010 ISBN 9780873536431 CD ROM attachment Mary Waring Background to Nuffield Science History of Education 8 3 1979 223 37 pdf External links editOfficial history Retrieved from https en wikipedia org w index php title Nuffield Science Project amp oldid 1193048318, wikipedia, wiki, book, books, library,

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