La construction de critères de scientificité pour la démarche d'investigation : une approche pragmatique pour l'enseignement de la physique à l'école primaire / Construction of a set of criteria of scientificity for inquiry-based science : a pragmatic approach to the teaching of physics in primary school

Blanquet, Estelle

24 November 2014

Le mémoire vise à proposer une épistémologie pragmatique de la science scolaire à l’école primaire. Un défaut de compréhension de la nature de la science pourrait en effet justifier en partie les difficultés de l'enseignement des sciences par démarche d'investigation. Une étude des représentations de la science chez les enseignants et futurs enseignants confirme qu’ils n‘en ont pour la plupart qu‘une vision assez floue, relevant majoritairement d'une forme d'empirisme naïf. Un jeu opératoire de critères de scientificité adapté au contexte de l’école est développé dans une approche "bottom-up" partant des pratiques de classe effectives. Sa capacité à discriminer pratiques scientifiques et non scientifiques est discutée, de même que les implications didactiques et épistémologiques de son utilisation. Il est en particulier possible d‘en déduire des définitions évolutives d‘une science scolaire normative mais subsidiaire par rapport à la “science des scientifiques”. Cet outil épistémologique s’avère bien reçu par les enseignants auxquels il a été présenté. Le test en situation de différentes stratégies pédagogiques fait apparaître que les plus efficaces pour l'appropriation de critères de scientificité ajoutent à la démarche d’investigation une composante épistémologique explicite. Certains éléments de méthode scientifique peuvent être travaillés dès la Grande Section de maternelle (5-6 ans) : des élèves ayant vécu des démarches d’investigation s’avèrent capables de revendiquer la primauté de l’expérience, mais aussi de mettre en œuvre des tests relatifs à plusieurs critères de scientificité et de s‘approprier les rudiments de la modélisation scientifique. / The purpose of this thesis is to propose a pragmatic epistemology of school science in primary school. Indeed, some of the difficulties encountered by inquiry-based science education may be attributed to a lack of understanding of the very nature of science. A survey on the perception of science by incumbent teachers and teachers in training confirms that most of them have a relatively vague vision grounded in a form of naive empiricism. A practical set of criteria of scientificity adapted to the school context is developed through a “bottom-up” approach based on actual classroom practices. Its efficiency at discriminating scientific and non-scientific practices is discussed, as well as the didactical and epistemological implications of its use. It is thus possible to deduce evolutive definitions of a school science that is normative yet subordinated to the “science of scientists”. Teachers responded positively to this epistemological tool when it was presented to them. Among the different teaching strategies tested in a classroom, the most efficient for the acquisition of criteria of scientificity were those which supplemented the inquiry process with an explicit epistemological component. Some elements of scientific method can be introduced as early as kindergarten (5-6 y.o) : after experimenting with inquiry processes, pupils have proved able not only to claim the primacy of experiment but also to run tests related to different criteria of scientificity and acquire the basics of scientific modeling.

Didactique de la physique

Science scolaire

Démarche d'investigation

École primaire

Nature de la science

Critère de scientificité

École maternelle

Approche "bottom-up"

Épistémologie

Subjectivité collective

Méthode scientifique

Modèles analogiques

Représentations de la science

Enseignement de la physique

Découverte du monde

Didactics of physics

School science

Inquiry-based science education

Primary school

Nature of science

Criterium of scientificity

Kindergarten

Bottom-up approach

Philosophy of science

Collective subjectivity

Scientific method

Analogical models

Views of science

Physics teaching

The Development and Validation of the Middle School-Life Science Concept Inventory (MS-LSCI) Using Rasch Analysis

Stammen, Andria

10 August 2018

No description available.

Educational Tests and Measurements

Education

Science Education

Secondary Education

Teaching

Biology

Ecology

concept inventory

middle school science education

life science assessment

biology assessment

concept inventory design

concept inventory validation

middle school life science assessment

middle school biology assessment

Rasch analysis

Rasch model

Student evaluation of career readiness after completing the science education course at Nazarene Teachers College, Kingdom of Swaziland

Mhlanga, Eugene Sabelo

16 January 2018

This exploratory study sought to determine how the current science education curriculum at Nazarene Teachers College contributes to the final (third) year’s students’ career readiness from their own perspectives. A self-administered questionnaire was used for data collection. The target population was 150 third year students; 110 responded to the questionnaire which had a response rate of 79%. To describe the biographical information of the respondents, frequencies and percentages were used. Tables of frequency distribution were then used to deduce the respondents’ responses to the group of questionnaire questions that probe the various career readiness concepts. Scale reliability testing was also used to determine the reliability of career readiness concepts. An overall measure of career readiness was calculated for each respondent and the effect of biographical properties as part of evaluation of respondents. The empirical (quantitative survey)showed that the science education course at the Nazarene Teachers College indeed prepares the students for their career readiness with specific reference to the teaching profession although some aspects can be improved. Therefore, it was recommended that there should be increased time allocated to science education and its teaching approaches; that a suitable science laboratory with all the required equipment for experiential learning should be constructed; the current curriculum content with regards to the relevance for primary school science should be reviewed; and the lecturers should be workshopped on the use of interactive methods of teaching science to facilitate active engagement with students. This study reveals that the science education course at the Nazarene Teachers College strengthened the students’ attitudes towards teaching science; improved their skills and confidence to teach science and enabled them to focus on a learner-centred approach. Students indicated that the use of specific teaching methods and the use of teaching aids contributed in a significant way to their preparation as teachers in the classroom. However, the students rated the contribution science makes to society as of minor importance / Curriculum and Instructional Studies / M. Ed. (Natural Science Education)

Curriculum evaluation

Student’s evaluation

Students’ perceptions

Career readiness

Course effectiveness

Primary school science education course

Science education programme

Teachers College students

507.116887

Using Online Pedagogy to Explore Student Experiences of Science-technology-society-environment (STSE) Issues in a Secondary Science Classroom

Ayyavoo, Gabriel Roman

02 August 2013

With the proliferation of 21st century educational technologies, science teaching and learning with digitally acclimatized learners in secondary science education can be realized through an online Science-Technology-Society-Environment (STSE)-based issues approach. STSE-based programs can be interpreted as the exploration of socially-embedded initiatives in science (e.g., use of genetically modified foods) to promote the development of critical cognitive processes and to empower learners with responsible decision-making skills. This dissertation presents a case study examining the online environment of a grade 11 physics class in an all-girls’ school, and the outcomes from those online discursive opportunities with STSE materials. The limited in-class discussion opportunities are often perceived as low-quality discussions in traditional classrooms because they originate from an inadequate introduction and facilitation of socially relevant issues in science programs. Hence, this research suggests that the science curriculum should be inclusive of STSE-based issue discussions. This study also examines the nature of students’ online discourse and, their perceived benefits and challenges of learning about STSE-based issues through an online environment. Analysis of interviews, offline classroom events and online threaded discussion transcripts draws from the theoretical foundations of critical reflective thinking delineated in the Practical Inquiry (P.I.) Model. The PI model of Cognitive Presence is situated within the Community of Inquiry framework,encompassing two other core elements, Teacher Presence and Social Presence. In studying Cognitive Presence, the online STSE-based discourses were examined according to the four phases of the P.I. Model. The online discussions were measured at macro-levels to reveal patterns in student STSE-based discussions and content analysis of threaded discussions. These analyses indicated that 87% of the students participated in higher quality STSE-based discussions via an online forum as compared to in-class. The micro-level analysis revealed students to attain higher cognitive interactions with STSE issues. Sixteen percent of the students’ threaded postings were identified in the Resolution Phase 4 when the teacher intervened with a focused teaching strategy. This research provides a significant theoretical and pedagogical contribution to blended approach to STSE-based secondary science education. It presents a framework for teachers to facilitate students’ online discussions and to support learners in exploring STSE-based topics.

Online Pedagogy

Secondary Science

Secondary Physics

Online STSE-based discussions

Practical Inquiry (P.I.) Model

Cognitive Presence

Teacher Presence

Community of Inquiry (CoI)

Higher Order thinking

Issues based education

Reflective thinking skills

Digital Immigrant

Threaded text-based Postings patterns

socio-political-ethical issues

level of cognitive presence

Phases of the P.I. Model

Benefits and challenges of STSE online

Blended online/offline teaching

Asynchronous STSE-based discussions

Effective online communications

Reflective thinking in STSE issues

STSE-issues Based Analysis Model

Female students

21st century learners

Use of Green Energy

Time to Think and reflect

Social Presence

Increased social peer compliments

positive social interaction

nurtures online community

Teacher's Moderator role

catalyst for learning

0727

0714

0533

Using Online Pedagogy to Explore Student Experiences of Science-technology-society-environment (STSE) Issues in a Secondary Science Classroom

Ayyavoo, Gabriel Roman

02 August 2013

With the proliferation of 21st century educational technologies, science teaching and learning with digitally acclimatized learners in secondary science education can be realized through an online Science-Technology-Society-Environment (STSE)-based issues approach. STSE-based programs can be interpreted as the exploration of socially-embedded initiatives in science (e.g., use of genetically modified foods) to promote the development of critical cognitive processes and to empower learners with responsible decision-making skills. This dissertation presents a case study examining the online environment of a grade 11 physics class in an all-girls’ school, and the outcomes from those online discursive opportunities with STSE materials. The limited in-class discussion opportunities are often perceived as low-quality discussions in traditional classrooms because they originate from an inadequate introduction and facilitation of socially relevant issues in science programs. Hence, this research suggests that the science curriculum should be inclusive of STSE-based issue discussions. This study also examines the nature of students’ online discourse and, their perceived benefits and challenges of learning about STSE-based issues through an online environment. Analysis of interviews, offline classroom events and online threaded discussion transcripts draws from the theoretical foundations of critical reflective thinking delineated in the Practical Inquiry (P.I.) Model. The PI model of Cognitive Presence is situated within the Community of Inquiry framework,encompassing two other core elements, Teacher Presence and Social Presence. In studying Cognitive Presence, the online STSE-based discourses were examined according to the four phases of the P.I. Model. The online discussions were measured at macro-levels to reveal patterns in student STSE-based discussions and content analysis of threaded discussions. These analyses indicated that 87% of the students participated in higher quality STSE-based discussions via an online forum as compared to in-class. The micro-level analysis revealed students to attain higher cognitive interactions with STSE issues. Sixteen percent of the students’ threaded postings were identified in the Resolution Phase 4 when the teacher intervened with a focused teaching strategy. This research provides a significant theoretical and pedagogical contribution to blended approach to STSE-based secondary science education. It presents a framework for teachers to facilitate students’ online discussions and to support learners in exploring STSE-based topics.

Online Pedagogy

Secondary Science

Secondary Physics

Online STSE-based discussions

Practical Inquiry (P.I.) Model

Cognitive Presence

Teacher Presence

Community of Inquiry (CoI)

Higher Order thinking

Issues based education

Reflective thinking skills

Digital Immigrant

Threaded text-based Postings patterns

socio-political-ethical issues

level of cognitive presence

Phases of the P.I. Model

Benefits and challenges of STSE online

Blended online/offline teaching

Asynchronous STSE-based discussions

Effective online communications

Reflective thinking in STSE issues

STSE-issues Based Analysis Model

Female students

21st century learners

Use of Green Energy

Time to Think and reflect

Social Presence

Increased social peer compliments

positive social interaction

nurtures online community

Teacher's Moderator role

catalyst for learning

0727

0714

0533