References
- AikenheadS. G.RyanA. G.The development of a new instrument: Views on “Science-Technology-Society” (VOSTS)Science Education19927647749110.1002/sce.3730760503
- AikenheadS. G.RyanA. G.DesautelsJ.The development of multiple-choice instrument foe monitoring views on science-technology-society topics1989Ottawa, CanadaSocial Sciences and Humanities Research Council of Canada
- Ben-ZviR.Energy and the human being1998RehovotWeizmann Institute of Science
- Ben-ZviR.Non-science oriented students and the second law of thermodynamicsInternational Journal of Science Education1999211251126710.1080/095006999290057
- Ben-ZviR.HofsteinA.SamuelD.KempaR. F.Modes of instruction in high school chemistryJournal of Research in Science Teaching19771443343910.1002/tea.3660140507
- Ben-Peretz, M. (1990). Teachers as curriculum makers. In T. Husen & N. T. Postlethwaite (Eds.), The International Encyclopedia of Education (2nd ed., pp. 6089–6092). Oxford: Pergamon Press.
- BodzinA. M.MamlokR.STS issues-based approach simulationsThe Science Teacher20006793639
- Bowyer, J. (1990, March). Scientific and technological literacy for education for change: A special study for the “World conference on education for all”. Jometian, Thailand; UNESCO, Paris.
- BybeeR. W.Reforming science education1993New YorkTeachers College Press
- Bybee, R. W. (1997). Meeting the challenges of achieving scientific literacy. Paper presented at the International Conference on Science Education: Globalization of Science Education, Seoul, Korea, May 1997.
- Bybee, R. W., & Ben-Zvi, N. (1998). Science curriculum: Transforming goals to practices. In B. J. Fraser & K. G. Tobin (Eds.), International handbook of science education (pp. 487–498). Dordrecht, The Netherlands: Kluwer Academic.
- Bybee, R. W., & Loucks-Horsley, S. (2000). Supporting change through professional development. In B. Resh (Ed.), Making sense of integrated science: A guide for high schools (pp. 41–48). Colorado Springs, CO: BSCS.
- ByrneM.JohnstoneA.How to make science relevant?School Science Review1988704345
- CohenD.Brain, medicines, and drugs2000Rehovot, IsraelWeizmann Institute of Science
- CohenD.Ben-ZviR.HofsteinA.RahamimoffR.On brain, medicines, and drugs: A module for “Science for All” programThe American Biology Teacher200466191910.1662/0002-7685(2004)066[0010:OBMDAM]2.0.CO;2
- ConantJ. B.NashL. K.Harvard case histories in experimental science1964Cambridge, MAHarvard University Press
- ConnellyF. M.Ben-PeretzM.Teachers’ role in the using and doing research and curriculum developmentJournal of Curriculum Studies19801295107
- Dori, Y. J., & Hofstein, A. (2000). The development, implementation and initial research findings of ‘Science for All’ in Israel. Paper presented at the National Association for Research in Science Teaching, New Orleans, LA, April 2000.
- EngerS.YagerR.Assessing student understanding in science: A standards-based K-12 handbook2001Iowa CityThe University of Iowa
- ErduranS.Philosophy of chemistry: An emerging field with implications for chemistry educationScience & Education20011058159310.1023/A:1017564604949
- FettersM. K.CzerniakC. M.FishL.ShawberryJ.Confronting, challenging, and changing teachers’ beliefs: Implications from a local systemic change professional development programJournal of Science Teacher Education20021310113010.1023/A:1015113613731
- Fensham, P. (1992). Science for All. In P. W. Jackson (Ed.), Handbook of research on curriculum (pp. 789–829). New York: MacMillan.
- Fontana, A., & Frey, J. H. (1998). Interviewing: The art of science. In N. K. Denzin #x00026;Y. S. Lincoln (Eds.), Collecting and interpreting qualitative materials (pp. 47–78). London, UK: SagePUBLICations.
- Gilmer, P. J., Grogan, A., & Siegel, S. (1996). Contextual learning for premedical students. In J. A. Chambers (Ed.), Selected papers from the 7th National Conference on College Teaching and Learning (pp. 79–89). Jacksonville, FL: Florida Community College at Jacksonville.
- GlaserfeldE.Cognition, construction of knowledge, and teachingSynthese19898012114010.1007/BF00869951
- GlaserB. G.StraussA. L.The discovery of grounded theory: Strategies for qualitative research1967Hawhorne, NYAldine
- HarmsN. C.YagerR. E.What research says to the science teacher1981Washington, D.CNational Science Teachers Association
- HaneyJ. J.LumpeA. T.CzerniakC. M.EganV.From beliefs to actions: The beliefs and actions of teachers implementing changeJournal of Science Teachers Education20021317118710.1023/A:1016565016116
- HarrisonJ.GlobmanR.Assessment of training teachers in active learning: A research report1988Ramat-Gan, IsraelBar-Ilan University
- HofsteinA.AikenheadG.RiquartsK.Discussion over STS at the 4th international organization for science and technology education symposiumInternational Journal of Science Education198810357366
- HofsteinA.MamlokR.From petroleum to tomatoes: Attaining some of the content standards using an interdisciplinary approachThe Science Teacher20016824648
- HofsteinA.MamlokR.CarmeliM.Science teachers as curriculum developers of Science for AllScience Education International1997812629
- Hofstein, A., Mamlok, R., & Rosenberg, O. (2006). Varying instructional methods and students assessment methods in high school chemistry. In M. McMahon, P. Simmons, R. Sommers, D. DeBaets & F. Crawley (Eds.). Assessment in Science (139–148). Arlington, Virginia: NSTA press.
- Hofstein, A., & Walberg, H. J. (1995). Instructional strategies. In B. J. Fraser #x00026;H. J. Walberg (Eds.), Improving science education (pp. 70–89). Chicago: National Society for the Study of Education.
- JoyceB.ShowersB.Power and staff development through research on training1983Alexandria, VAAssociation for Supervision and Curriculum Development
- Krajcik, J. S., Mamlok, R., & Hug, B. (2001). Modern content and the enterprise of science: Science education in the 20th century. In L. Corno (Ed.), Education across a century: The centennial volume (pp. 205–238). Chicago, IL: National Society for the Study of Education.
- LawrenzF.NesbitC. R.WallaceJ. D.PugaleeD. K.Country-MillerA.DiBiaseW. J.Evaluation of teacher leader professional developmentDeveloping teacher leaders2001Columbus, OHERIC Clearing House
- Levy Nahum, T., Hofstein, A., Mamlok-Naaman, R., & Bar-Dov, Z. (2004). Can final examinations amplify students’ misconceptions in chemistry? Chemistry Education: Research and Practice, 5, 301–325. Retrieved April 6, 2005, from http://www.uoi.gr/cerp/.
- Loucks-HorsleyS.HewsonP. W.LoveN.StilesK.Designing professional development for teachers of science and mathematics1998Thousand Oaks, CACorwin Press
- Loucks-HorsleyS.MatsumotoC.Research on professional development for teachers of mathematics and science: The state of the sceneSchool Science and Mathematics19999925827110.1111/j.1949-8594.1999.tb17484.x
- MamlokR.Science: An ever-developing entity1998Rehovot, IsraelWeizmann Institute of Science
- MamlokR.Ben-ZviR.MenisJ.PenickJ. E.Can simple metals be transmuted into gold? Teaching science through a historical approachScience Education International20001133337
- MitchenerC. P.AndersonR. D.Teachers’ perspective: Developing and implementing an STS curriculumJournal of Research in Science Teaching19872635136910.1002/tea.3660260407
- National science education standards1996Washington, DCNational Academy Press
- Neathery, M. F. (1997). Elementary and secondary students’ perceptions toward science: Correlations with gender, ethnicity, ability, grade, and science achievement. Electronic Journal of Science Education, 2(1). Retrieved April 6, 2005, from http://unr.edu/homepage/jcannon/ejse/ejse.html.
- NorrisS. P.PhillipsL. M.How literacy in its fundamental sense is central to scientific literacyScience Education20038722424010.1002/sce.10066
- ParkeH. M.CobleC. R.Teachers designing curriculum as professional development: A model for transformational science teachingJournal of Research in Science Teaching19973477378910.1002/(SICI)1098-2736(199710)34:8<773::AID-TEA2>3.0.CO;2-S
- Penick, J. (Ed.) (1984). Focus on excellence: Science/technology/society. Washington, DC: National Science Teachers Association.
- PriesnerC.How the language of chemistry developedChemistry in Action1991331121
- Rayner-CanhamM.Rayner-CanhamG.Women in chemistry1998Washington, DCAmerican Chemical Society and the Chemical Heritage
- SabarN.ShafririN.On the need for teacher training in curriculum developmentStudies in Educational Assessment19827307315
- SeyboldP. G.Provocative opinion: Better mousetraps, expert advice, and the lessons of historyJournal of Chemical Education19947139239910.1021/ed071p392
- ShavelsonR. J.BaxterG. P.PineJ.Performance assessments: Political rhetoric and measurement realityEducational Researcher1992214222710.2307/1177207
- SweeneyA. E.Incorporating multicultural and science/technology/society issues into science teacher education courses: Successes, challenges and possibilitiesJournal of Science Teacher Education20011212810.1023/A:1016625829643
- TamirP.An inquiry oriented laboratory examinationJournal of Educational Measurement197411233310.1111/j.1745-3984.1974.tb00967.x
- Tobin, K. (1995, April). Issues of commensurability in the use of qualitative and quantitative measures. Paper presented at the Annual Meeting of the National Association for Research in Science Teaching, San Francisco, CA.
- TobinK.CapieW.BettencourtA.Active teaching for higher cognitive learning in scienceInternational Journal of Science Education1988101727
- Tobin, K., Tippins, D. J., & Gallard, A. J. (1994). Research on instructional strategies for teaching science. In D. L. Gabel (Ed.), Handbook of research on science teaching and learning (pp. 45–93). New York: Macmillan.
- Tomorrow 98: Report of the superior committee on science mathematics and technology in Israel (1992). Jerusalem: Ministry of Education and Culture (English Edition: 1994).
- TrowbridgeL. W.BybeeR. W.Teaching secondary school science1996Columbus, OHMerrill
- WeissI. R.Report of the 1985–86 national survey of science and mathematics education1987Research Triangle Park, NCResearch Triangle Institute
- WellingtonJ.Newspaper science, school science; friends or enemies?International Journal of Science Education199113363372
- WesterlundJ. F.GarciaD. M.KokeJ. R.TaylorA. T.MasonD. S.Summer scientific research for teachers: The experience and its effectsJournal of Science Teacher Education200213638310.1023/A:1015133926799
- WigginsG.McTigheJ.Understanding by design1998Upper Saddle River, NJMerrill Prentice Hall
- WuD. G.CahenD.GrafP.NaamanR.NitzanA.ShvartzD.Direct detection of low-concentration NO in Physiological solutions by new GaAs-based sensorChemistry – A European Journal200171743174910.1002/1521-3765(20010417)7:8<1743::AID-CHEM17430>3.0.CO;2-X
- Yager, R. (1993). Make a Difference with STS; Should we toss out the textbook? The Science Teacher, 45-48.
- Yager, R. E. (Ed.) (1996). Science/technology/society as reform in science education. Albany, NY: SUNY Press.
- YardenA.BrillG.FalkH.Primary literature as a basis for a high-School biology curriculumJournal of Biology Education2001354190195
- ZuzovskyR.Assessing scientific and technological literacy among sixth graders in IsraelStudies in Educational Evaluation19972323125610.1016/S0191-491X(97)00015-1