How College Students' Conceptions of Newton's Second and Third Laws Change Through Watching Interactive Video Vignettes: A Mixed Methods Study

Engelman, Jonathan

January 2016

No description available.

Science Education

Interactive Video Vignettes

Conceptual Change

Fully Integrated Mixed Methods Design

Elicit, Confront, Resolve, Reflect

Physics Education Research

The Mediating Effects of Science Classroom Talk on the Understanding of Earth-Sun-Moon Concepts with Middle School Students Who are Deaf or Hard of Hearing

Clancy, Shannon M.

18 May 2017

No description available.

Education

Special Education

Teaching

Effects of student ontological position on cognition of human origins

Ervin, Jeremy Alan

14 October 2003

No description available.

Conceptual Change

Evolution

Hermeneutics

Hermeneutical Dialectic Cycle

Metaphysics

Ontological Position

Origins

Plagiaristic Knowledge

Science Education

Worldview

Worldview Theory

Factors that impede the formation of basic scientific concepts during teacher training in Ghana

Sarfo, Solomon

02 1900

The investigation aimed at identifying the factors that accounted for the teacher trainees’ low understanding of basic scientific concepts and the appropriate strategies needed to rectify these obstacles. In this investigation thirty open ended questions were administered to test three hundred teacher trainees’ understanding of science concepts. Also, observations were conducted during science lessons to monitor the participation of trainees. The teacher trainees’ poor background in science was identified. Inflexible teaching methods such as lecturing and provision of pointers to correct answers by teachers contributed. Teacher trainees lacked the necessary conceptual, logical and linguistic background, and the vocabulary to express themselves in English. Most science lessons did not consider media integration, but were conducted through verbal communication. Teacher trainees employed ineffective study techniques in learning science. Recommendations included reading assignments, laboratory work, media integration and the employment of effective study techniques in the teaching and learning of science. / Teacher Education / Thesis (M. Ed. (Didactics))

Development of conceptual change

Misconception

Free response items

Single frequency statistical analysis

Science teachers -- Ghana

Science teachers -- Ghana -- Evaluation

Science teachers -- Training of -- Ghana

Language and education

Concept learning

Du changement conceptuel à la complexification conceptuelle dans l'apprentissage des sciences

Bélanger, Michel

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Changement conceptuel

Conceptions multiples

Complexification conceptuelle

Didactique de la mécanique quantique

Vulgarisation

Histoire des sciences

Conceptual change

Multiple conceptions

Conceptual complexification

Quantum mechanic learning

Popularization

History of science

Apport d'une activité d'apprentissage intégrant l'histoire des sciences à l'enseignement de la physique au niveau collégial

Pelletier-Boudreau, Pascal

January 2008

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Histoire des sciences

Conceptions

Changement conceptuel

Vision

Lumière

Enseignement des sciences

Enseignement collégial

Constructivisme

Cégep

History of sciences

Conceptions

Conceptual change

Light

Vision

Pre-university science education

Cegep

Constructivism

Les principaux modèles de changement conceptuel et l'enseignement des sciences au primaire : état de la question

Bêty, Marie-Noël

January 2009

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Didactique des sciences

Enseignement des sciences au primaire

Changement conceptuel

Pratique d'enseignement en sciences

Science education

Science teaching at primary level

Conceptual change

Teaching practice in science

L’impact d’une simulation sur des dispositifs mobiles et en situation de collaboration sur la compréhension de l’effet photoélectrique au niveau collégial

Droui, Mohamed

08 1900

L’innovation pédagogique pour elle-même s’avère parfois discutable, mais elle se justifie quand les enseignants se heurtent aux difficultés d’apprentissage de leurs étudiants. En particulier, certaines notions de physique sont réputées difficiles à appréhender par les étudiants, comme c’est le cas pour l’effet photoélectrique qui n’est pas souvent compris par les étudiants au niveau collégial. Cette recherche tente de déterminer si, dans le cadre d’un cours de physique, la simulation de l’effet photoélectrique et l’utilisation des dispositifs mobiles et en situation de collaboration favorisent une évolution des conceptions des étudiants au sujet de la lumière. Nous avons ainsi procédé à l’élaboration d’un scénario d’apprentissage collaboratif intégrant une simulation de l’effet photoélectrique sur un ordinateur de poche. La conception du scénario a d’abord été influencée par notre vision socioconstructiviste de l’apprentissage. Nous avons effectué deux études préliminaires afin de compléter notre scénario d’apprentissage et valider la plateforme MobileSim et l’interface du simulateur, que nous avons utilisées dans notre expérimentation : la première avec des ordinateurs de bureau et la seconde avec des ordinateurs de poche. Nous avons fait suivre à deux groupes d’étudiants deux cours différents, l’un portant sur une approche traditionnelle d’enseignement, l’autre basé sur le scénario d’apprentissage collaboratif élaboré. Nous leur avons fait passer un test évaluant l’évolution conceptuelle sur la nature de la lumière et sur le phénomène de l’effet photoélectrique et concepts connexes, à deux reprises : la première avant que les étudiants ne s’investissent dans le cours et la seconde après la réalisation des expérimentations. Nos résultats aux prétest et post-test sont complétés par des entrevues individuelles semi-dirigées avec tous les étudiants, par des enregistrements vidéo et par des traces récupérées des fichiers logs ou sur papier. Les étudiants du groupe expérimental ont obtenu de très bons résultats au post-test par rapport à ceux du groupe contrôle. Nous avons enregistré un gain moyen d’apprentissage qualifié de niveau modéré selon Hake (1998). Les résultats des entrevues ont permis de repérer quelques difficultés conceptuelles d’apprentissage chez les étudiants. L’analyse des données recueillies des enregistrements des séquences vidéo, des questionnaires et des traces récupérées nous a permis de mieux comprendre le processus d’apprentissage collaboratif et nous a dévoilé que le nombre et la durée des interactions entre les étudiants sont fortement corrélés avec le gain d’apprentissage. Ce projet de recherche est d’abord une réussite sur le plan de la conception d’un scénario d’apprentissage relatif à un phénomène aussi complexe que l’effet photoélectrique, tout en respectant de nombreux critères (collaboration, simulation, dispositifs mobiles) qui nous paraissaient extrêmement utopiques de réunir dans une situation d’apprentissage en classe. Ce scénario pourra être adapté pour l’apprentissage d’autres notions de la physique et pourra être considéré pour la conception des environnements collaboratifs d’apprentissage mobile innovants, centrés sur les besoins des apprenants et intégrant les technologies au bon moment et pour la bonne activité. / The educational innovation itself is sometimes debatable but it is justified when the teachers confront the learning difficulties of their students. In particular, some notions of physics are notoriously hard for students to understand, as is the case for the photoelectric effect which is not often comprehended by the students at the college level. This research tries to determine if, as part of a physics course, the simulation of the photoelectric effect and the use of mobile devices in collaborative situations facilitate an evolution of the student’s conceptions about the concept of light. We have proceeded to develop a scenario of collaborative learning by integrating a simulation of the photoelectric effect on handheld devices (Pocket PC). The design of scenario was first influenced by our socioconstructivist vision of learning. We conducted two preliminary studies to complete our scenario of learning and to validate the platform « MobileSim » and the interface of the simulator used in our experiment. The first studies were completed with a simulation on computers and the second with a simulation on Pocket PC. After that, we carried out the experimentation with two groups of students. The control group was assigned to the traditional approach of teaching and the experimental group was assigned to the approach based on the developed scenario of collaborative learning. We have conducted a test twice to assess a conceptual change about the nature of light and about the phenomenon of the photoelectric effect and related concepts. The first test (pre-test) before the students are involved in the course and the second (post-test) after completion of experiments. Our results in the pre-test and post-test were completed by conducting semi-structured individual interviews with all students, by video recordings and recovered traces (on log files or on paper). Students in the experimental group obtained good results in the test compared to those of the control group. We noted an average gain of learning qualified at a moderate level according to Hake (1998). Interview results were used to identify some conceptual difficulties of student learning. Analysis of collected data from video sequences, questionnaires and recovered tracks allowed us to better understand the process of collaborative learning and has revealed that the number and the time of interactions between students are strongly correlated with the gain of learning. At first, this research project is a success in the designing of a learning scenario of a phenomenon as complex as the photoelectric effect and respects many criteria (collaboration, simulation, mobile devices, etc.) that it seemed for us extremely utopian to combine them in an effective learning situation in the classroom. For instance, this scenario could be adapted to the learning of other concepts in physics. It could also be considered for the design of collaborative environments for innovative mobile learning focused on the needs of learners that integrate the technologies at the right time and for the right activity.

Apprentissage collaboratif

Simulation

Apprentissage Mobile

Changement conceptuel

effet photoélectrique

collaborative learning

simulation

mobile learning

conceptual change

photoelectric effect

Factors that impede the formation of basic scientific concepts during teacher training in Ghana

Sarfo, Solomon

02 1900

The investigation aimed at identifying the factors that accounted for the teacher trainees’ low understanding of basic scientific concepts and the appropriate strategies needed to rectify these obstacles. In this investigation thirty open ended questions were administered to test three hundred teacher trainees’ understanding of science concepts. Also, observations were conducted during science lessons to monitor the participation of trainees. The teacher trainees’ poor background in science was identified. Inflexible teaching methods such as lecturing and provision of pointers to correct answers by teachers contributed. Teacher trainees lacked the necessary conceptual, logical and linguistic background, and the vocabulary to express themselves in English. Most science lessons did not consider media integration, but were conducted through verbal communication. Teacher trainees employed ineffective study techniques in learning science. Recommendations included reading assignments, laboratory work, media integration and the employment of effective study techniques in the teaching and learning of science. / Teacher Education / Thesis (M. Ed. (Didactics))

Development of conceptual change

Misconception

Free response items

Single frequency statistical analysis

Science teachers -- Ghana

Science teachers -- Ghana -- Evaluation

Science teachers -- Training of -- Ghana

Language and education

Concept learning

Conceptual Change Text Oriented Instruction To Facilitate Conceptual Change In Rate Of Reaction Concepts

Balci, Ceyda

01 October 2006

The aim of this study is to investigate the effectiveness of conceptual change text oriented instruction accompanied with analogies over traditionally designed chemistry instruction on overcoming 10th grade students&rsquo / misconceptions, their understanding of rate of reaction concepts and their attitude towards chemistry as a school subject. 42 tenth grade students from two classes of a chemistry course taught by the same teacher at a public high school in &Ccedil / anakkale involved in the study. The study was carried out in Spring Semester of 2005-2006 Education Year. Two groups of students participated in the study. One group was called Experimental Group and instructed with conceptual change texts oriented instruction accompanied with analogies and the other group was called Control Group and was instructed with traditionally designed chemistry instruction over a period of four weeks. To investigate the effectiveness of the treatment, Rate of Reaction Concepts Test and Attitude Scale Towards Chemistry as a school subject were administered to both groups of students at the beginning and at the end of the treatment period. To evaluate students&rsquo / science process skills, Science Process Skills Test was administered to both groups of students before the treatment. MANCOVA was used to test the hypothesis of the study. The results of the study indicated that students instructed with conceptual change texts oriented instruction accompanied with analogies gained higher average scores in Rate of Reaction Concepts Test than the students instructed with traditionally designed chemistry instruction. Results and strategies that were developed for the present study may be used by science teachers to reduce and eliminate students&rsquo / misconceptions about rate of reaction concepts.