Teacher views on the use of scenarios to enhance scientific literacy through raising career awareness

Authors

  • Regina Soobard
  • Ana Valdmann
  • Rain Mikser
  • Miia Rannikmäe

DOI:

https://doi.org/10.12697/eha.2021.9.2.04

Keywords:

scientific literacy, career-awareness, teachers’ readiness

Abstract

Uuringu eesmärk oli välja selgitada loodusteaduste õpetajate valmisolek kasutada karjääriteadlikkuse kujundamisele suunatud stsenaariume loodusteadusliku kirjaoskuse arendamisel. Kasutasime viit uuringu jaoks koostatud kontekstipõhist loodusteadusliku karjääriteadlikkusega seotud stsenaariumi. Igas neist tutvustati sotsiaalteaduslikust kontekstist lähtuvalt vähemalt kaht loodusteadustega seotud elukutset koos neis vajalike teadmiste ja oskustega. Valmisolekut stsenaariume tunnis kasutada küsiti kümnelt loodusteaduste õpetajalt, kasutades Google Formsi keskkonnas kohandatud küsimustikku. Kvalitatiivse analüüsi tulemused näitasid, et õpetajate valmisolek stsenaariumide kasutamiseks on erinev ning isegi kogenud õpetaja vajab mitmekülgseid juhiseid karjääriteadlikkuse kui loodusteadusliku kirjaoskuse ühe tahu arendamiseks loodusteaduste tundides.

PDF Summary

Downloads

Download data is not yet available.

References

Adamson, S.J., Doherty, N., & Viney, C. (1998). The meanings of career revisited: implications for theory and practice. British Journal of Management, 9, 251–259. https://doi.org/10.1111/1467-8551.00096

American Association for the Advancement of Science (AAAS). (2001). Atlas of science literacy (Project 2061). Mapping K-12 science learning. Washington, DC.

Bandura, A. (1986). Social foundations of thought and action. New York, NY: Englewood Cliffs.

Baruch, Y. (2006). Career development in organizations and beyond: balancing traditional and contemporary viewpoints. Human Resource Management Review, 16(2), 125–138. https://doi.org/10.1016/j.hrmr.2006.03.002

Blotnicky, K. A., Franz-Odentaal, T., French, F., & Joy, P. (2018). A study of the correlation between STEM career knowledge, mathematics self-efficacy, career interests, and career activities on the likelyhood of pursuing a STEM career among middle school students. International Journal of STEM Education, 5(22). https://doi.org/10.1186/s40594-018-0118-3

Brouwer, P., Brekelmans, M., Nieuwenhuis, L., & Simons, R. J. (2012). Communities of practice in the school workplace. Journal of Educational Administration, 50(3), 346–364. https://doi.org/10.1108/09578231211223347

Chang, Y., Leach, N., & Anderman, E. M. (2015). The role of perceived autonomy support in principals’ affective organizational commitment and job satisfaction. Social Psychology of Education, 18(2), 315–336. https://doi.org/10.1007/s11218-014-9289-z

Cohen, C., & Patterson, D. G. (2012). Teaching Strategies that Promote Science Career Awareness. Seattle: Northwest Association for Biomedical Research Monograph.

Deci, E. L., & Ryan, R. M. (2000). The "what" and "why" of goal pursuits: human needs and the self-determination of behavior. Psychological inquiry, 11(4), 227–268. https://doi.org/10.1207/S15327965PLI1104_01

DeWitt, J., & Archer, L. (2015). Who aspires to a science career? A comparison of survey responses from primary and secondary school students. International Journal of Science Education, 37(13), 2170–2192. https://doi.org/10.1080/09500693.2015.1071899

DeWitt, J., Archer, L., & Mau, A. (2016). Dimensions of science capital: exploring its potential for understanding students’ science participation. International Journal of Science Education, 38(16), 2431–2449. https://doi.org/10.1080/09500693.2016.1248520

Drymiotou, I., Constantinou, C.P., & Avraamidou, L. (2021). Enhancing students’ interest in science and understandings of STEM careers: the role of career-based scenarios. International Journal of Science Education. https://doi.org/10.1080/09500693.2021.1880664

Forte, A. M., & Flores, M. A. (2014). Teacher collaboration and professional development in the workplace: a study of Portuguese teachers. European Journal of Teacher Education, 37(1), 91–105. https://doi.org/10.1080/02619768.2013.763791

Gilbert, J. K., Bulte, A. M. W., & Pilot, A. (2011). Concept development and transfer in context-based science education. International Journal of Science Education, 33(6), 817–837. https://doi.org/10.1080/09500693.2010.493185

Habig, B., Gupta, P., Levine, B., & Adams, J. (2020). An informal science education program’s impact on STEM major and STEM career outcomes. Research in Science Education, 50, 1051–1074. https://doi.org/10.1007/s11165-018-9722-y

Harlen, W., Devés, R., Garza, G., F., Léna, P., Millar, R., Reiss, M., Rowell, P., & Yu, W. (2015). Working with big ideas of science education. Published by the Science Education Programme (SEP) of IAP.

Henno, I., Kollo, L., & Mikser, R. (2017). Eesti loodusainete õpetajate uskumused, õpetamispraktika ja enesetõhusus TALIS 2008 ja 2013 uuringu alusel. Eesti Haridusteaduste Ajakiri, 5(1), 268−296. https://doi.org/10.12697/eha.2017.5.1.09.

Holbrook, J., & Rannikmäe, M. (2007). Nature of science education for enhancing scientific literacy. International Journal of Science Education, 29(11), 1347−1362. https://doi.org/10.1080/09500690601007549

Holbrook, J., & Rannikmäe, M. (2009). The meaning of scientific literacy. International Journal of Environmental & Science Education, 4(3), 275–288.

Holbrook, J., & Rannikmäe, M. (2010). Contextualisation, de-contextualisation, recontextualisation – a science teaching approach to enhance meaningful learning for scientific literacy. In I. Eilks & B. Ralle (Eds.), Contemporary science education (pp. 69−82). Germany: Shaker Verlag.

Kang, J., Keinonen, T., & Salonen, A. (2019). Role of interest and self-concept in predicting science aspirations: gender study. Research in Science Education. https://doi.org/10.1007/s11165-019-09905-w

Kang, J., Keinonen, T., Simon, S., Rannikmäe, M., Soobard, R., & Direito, I. (2019). Scenario evaluation with relevance and interest (SERI): Development and validation of a scenario measurement tool for context-based learning. International Journal of Science and Mathematics Education, 17, 1317–1338. https://doi.org/10.1007/s10763-018-9930-y

Kemp, A. C. (2002) Science Educators’ Competing Views on the Goal of Scientific Literacy. Ph.D. Thesis, University of Georgia, Georgia, GA, USA.

Klassen, R. M., Perry, N. E., & Frenzel, A. C. (2012). Teachers’ relatedness with students: An underemphasized component of teachers’ basic psychological needs. Journal of Educational Psychology, 104(1), 150–165. https://doi.org/10.1037/a0026253

Krajcik, J., & Delen, İbrahim. (2017). Õpilaste kaasamine STEM-haridusse. Eesti Haridusteaduste Ajakiri. Estonian Journal of Education, 5(1),10–34. https://doi.org/10.12697/eha.2017.5.1.02b

Krull, E. (2018). Pedagoogilise psühholoogia käsiraamat. Tartu: Tartu Ülikooli Kirjastus.

Maltese, A. V., & Tai, R. H. (2011). Pipeline persistence: Examining the association of educational experiences with earned degrees in STEM among U.S. students. Science Education, 95(5), 877–907. https://doi.org/10.1002/sce.20441

Margot, K.C., & Kettler, T. (2019). Teachers’ perception of STEM integration and education: A systematic literature review. International Journal of STEM Education, 6(2), 1–16. https://doi.org/10.1186/s40594-018-0151-2

Maxwell, A., & Riley, P. (2017). Emotional demands, emotional labour and occupational outcomes in school principals: Modelling the relationships. Educational Management Administration & Leadership, 45(3), 484–502. https://doi.org/10.1177/1741143215607878

McDonald, C. V. (2017). Exploring nature of science and argumentation in science education. In B. Akpan (Ed.), Science education: A global perspective (pp. 7–44). Switzerland: Springer.

National Research Council (NRC). (2012). Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas. Washington, DC: The National Academies Press.

Nie, Y., Chua, B. L., Yeung, A. S., Ryan, R. M., & Chan, W. Y. (2015). The importance of autonomy support and the mediating role of work motivation for well-being: testing self-determination theory in a Chinese work organisation. International Journal of Psychology, 50(4), 245–255. https://doi.org/10.1002/ijop.12110

Organisation for Economic Co-operation and Development (OECD). (2016). PISA 2015 results (Vol. 1). Excellence and equity in education. OECD Publishing.

Potvin, P., & Hasni, A. (2014). Interest, motivation and attitude towards science and technology at K-12 levels: A systematic review of 12 years of educational research. Studies in Science Education, 50(1), 85–129. https://doi.org/10.1080/03057267.2014.881626

Põhikooli riiklik õppekava (2011). Riigi Teataja I, 14.01.2011, 1. https://www.riigiteataja.ee/akt/129082014020.

Queiruga-Dios, M. A., López-Iñesta, E., Diez-Ojeda, M., Sáiz-Manzanares, M. C., & Vázquez Dorrío; J. B (2020). Citizen science for scientific literacy and the attainment of sustainable development goals in formal education. Sustainability, 12(19), 4283. https://doi.org/10.3390/su12104283

Rannikmäe, A., Rannikmäe, M., & Holbrook, J. (2008). A paradigm shift in teachers: Recognising the nature of science as its’ place in teaching. In J. Holbrook, M. Rannikmäe, P. Reiska & P. Ilsley (Eds.), The need for a paradigm shift in science education for post-Soviet societies (pp. 143–163). Germany: Peter Lang.

Rannikmäe, M., Soobard, R., Reiska, P., Rannikmäe, A., & Holbrook, J. (2017). Õpilaste loodusteadusliku kirjaoskuse tasemete muutus gümnaasiumiõpingute jooksul. Eesti Haridusteaduste Ajakiri, 5(1), 59−98. https://doi.org/10.12697/eha.2017.5.1.03

Roberts, D. A., & Bybee, R. W. (2014). Scientific literacy, science literacy, and science education. In N. G. Lederman & S. K. Abell (Eds.). Handbook of Research on Science Education (pp. 545–558). New York, NY: Routledge.

Roth, G., Assor, A., Kanat-Maymon, Y., & Kaplan, H. (2007). Autonomous motivation for teaching: How self-determined teaching may lead to self-determined learning. Journal of Educational Psychology, 99(4),761–774. https://doi.org/10.1037/0022-0663.99.4.761

Ryan, R. M., & Deci, E. L. (2017). Self-determination theory: Basic psychological needs in motivation, development, and wellness. New York, NY: Guilford Publications

Ryan, R. M., & Deci, E. L. (2020). Intrinsic and extrinsic motivation from a selfdetermination theory perspective: Definitions, theory, practices, and future directions. Contemporary Educational Psychology, 61. https://doi.org/10.1016/j.cedpsych.2020.101860

Salonen, A., Kärkkäinen, S., & Keinonen, T. (2018). Career-related instruction promoting students’ career awareness and interest towards science learning. Chemistry Education Research and Practice, 19(2), 474–483. https://doi.org/10.1039/C7RP00221A

Soobard, R., Kotkas, T., Holbrook, J., & Rannikmäe, M. (2020). Students’ perceptions of an intervention course designed to raise science-related career awareness. European Journal of Educational Research, 9(4), 1539–1555. https://doi.org/10.12973/eu-jer.9.4.1539

Taylor, I. M., Ntoumanis, N., & Standage, M. (2008). A self-determination theory approach to understanding the antecedents of teachers’ motivational strategies in physical education. Journal of sport and exercise psychology, 30(1), 75–94. https://doi.org/10.1123/jsep.30.1.75

Tröbst, S., Kleickmann, T., Lange-Schubert, K., Rothkopf, A., & Möller, K. (2016). Instruction and students’ declining interest in science: An analysis of German fourth- and sixth-grade classrooms. American Educational Research Journal, 53(1), 162–193. https://doi.org/10.3102/0002831215618662

Tytler, R. (2007). Australian education review: Re-imagining science education engaging students in science for Australia’s future. Victoria: ACER Press.

Valdmann, A., Holbrook, J., & Rannikmäe, M. (2020). Defining teacher ownership: a science education case study to determine categories of teacher ownership. Journal of Baltic Science Education, 19(4), 659–674. 10.33225/jbse/20.19.659

White, R. W. (1959). Motivation reconsidered: The concept of competence. Psychological Review, 66, 297–333. https://doi.org/10.1037/h0040934

Downloads

Published

2021-11-01

How to Cite

Soobard, R., Valdmann, A., Mikser, R., & Rannikmäe, M. (2021). Teacher views on the use of scenarios to enhance scientific literacy through raising career awareness. Eesti Haridusteaduste Ajakiri. Estonian Journal of Education, 9(2), 72–99. https://doi.org/10.12697/eha.2021.9.2.04

Issue

Vol. 9 No. 2 (2021)

Section

Articles

License

The authors who publish in Eesti Haridusteaduste Ajakiri. Estonian Journal of Education agree to the following terms:

  1. This journal provides immediate open access to its content. All the articles are licensed under a Creative Commons Attribution-NonCommercial-NoDerivs 3.0 License.
  2. Authors grant the journal right of (1) first publication and distribution of the article, (2) making it available to public, (3) public presentation.
  3. Authors have the right to enter into separate contractual arrangements for posting the article to an institutional repository or publish it in a book with an acknowledgement of its initial publication in this journal.
  4. Authors are permitted to post citations from their work online (e.g. on their website) with an acknowledgement of its initial publication in this journal (see Open Access).

Most read articles by the same author(s)

1 2 > >>