The Impact of Teaching the Concepts of Force and Motion in General Physics Courses / Impacto de la enseñanza de conceptos de fuerza y movimiento en los cursos de Física General

Castillo, Hernán, Moscoso, Richard, Phan, José Luis, Quiroz, Jorge

10 April 2018

This article focuses on the results of a research about teaching General Physics concepts to college students, and stresses the relevance of evaluating this kind of knowledge. Between 2009 and 2011, 4,535 students from the Pontifical Catholic University of Perú went through an evaluation process using the Force Concept Inventory test. The data results showed no significant improvement in the students’ learning process after having learned the concepts of force and motion, matters included in Physics 1 and Physics 2. The hardest concept to learn was Newton’s second law. Furthermore, a relevant amount of the students evaluated found no relation between learning these concepts and passing the courses. / Este artículo sintetiza el análisis de los resultados de un estudio acerca de la enseñanza de conceptos de Física en alumnos universitarios y la utilidad de evaluar este tipo de conocimientos. Entre los años 2009 y 2011, 4535 alumnos de la Universidad Católica han sido evaluados con la prueba Force Concept Inventory (FCI) a. Los resultados indican que los conocimientos de fuerza y movimiento se implantan entre los cursos de Física 1 y Física 2, y no se encuentra una mejora significativa después. El concepto con mayor dificultad de aprendizaje es la segunda ley de Newton. Además, existe un importante número de alumnos para los cuales no hay relación entre la ganancia de conceptos y la aprobación del curso.

Physics

Physics Concepts

Evaluation In Physics

Survey About Concepts Of Force

Force Concept Inventory (fci)

Conceptos De Física

Evaluación En Física

Cuestionario Sobre Conceptos De Fuerza

Force Concept Inventory (fci)

The effectiveness of applying conceptual development teaching strategies to Newton's second law of motion / Carel Hendrik Meyer

Meyer, Carel Hendrik

January 2014

School science education prepares learners to study science at a higher level, prepares them to follow a career in science and to become scientific literate citizens. It is the responsibility of the educator to ensure the learners’ conceptual framework is developed to the extent that secures success at higher level studies. The purpose of this study was to test the effectiveness of conceptual change teaching strategies on the conceptual development of grade 11 learners on Newton’s second law of motion. The two strategies employed were the cognitive conflict strategy and the development of ideas strategy. A sequential explanatory mixed-method research design was used during this study. The qualitative data were used to elucidate the quantitative findings. The quantitative research consisted of a quasi-experimental design consisting of a single-group pre-test–post-test method. During the qualitative part of the research a phenomenological research approach was utilised to gain a better understanding of participants’ learning experiences during the intervention. The quantitative research made use of an adapted version of the Force Concept Inventory (FCI). The data collected from the pre-test were used to inform the intervention. The intervention was videotaped and the video analysis or qualitative data analysis was done. After the intervention the post-test was written by the learners. Hake’s average normalised learning gain <g> from pre- to post-scores was analysed to establish the effectiveness of the intervention. The two sets of results (quantitative and qualitative) were integrated. Information from the qualitative data analysis was used to support and explain the quantitative data. The quantitative results indicate that there was an improvement in the students’ force conception from their initial alternative conceptions, such as that of an internal force. Especially the learners’ understanding of contact forces and Newton’s first law of motion yielded significant improvement. The qualitative data revealed that the understanding of Newton’s second law of motion by the learners who partook in this study did improve, since the learners immediately recognised the mistakes made when confronted with the anchor concept. The cognitive conflict teaching strategy was effective in establishing the anchor concept of force which proved to be useful as bridging concept in the development of ideas teaching strategy. The data from both datasets revealed that the cognitive conflict teaching strategy for the initial part of the intervention was effective. It was evident that for development of the idea teaching strategy the two data sets revealed mixed results. Recommendations were made for future research and implementation of conceptual development teaching strategies. / MEd (Natural Sciences Education), North-West University, Potchefstroom Campus, 2014

Newton’s second law of motion

Teaching strategy

Conceptual development

Conceptual understanding

Learning

Cognitive learning theory

Information processing model

Cognitive resources

Newton’s laws of motion

Sequential Explanatory design

Force Concept Inventory (FCI)

Newton se tweede bewegings wet

Onderrig strategie

Konseptuele ontwikkeling

Konseptuele verstaan

Leer

Kognitiewe leer teorie

Inligtings prosseserings model

Kognitiewe hulpbronne

Newton se bewegings wet

Sekwensieële verduidelikings ontwerp

Krag Konsep Register

The effectiveness of applying conceptual development teaching strategies to Newton's second law of motion / Carel Hendrik Meyer

Meyer, Carel Hendrik

January 2014

School science education prepares learners to study science at a higher level, prepares them to follow a career in science and to become scientific literate citizens. It is the responsibility of the educator to ensure the learners’ conceptual framework is developed to the extent that secures success at higher level studies. The purpose of this study was to test the effectiveness of conceptual change teaching strategies on the conceptual development of grade 11 learners on Newton’s second law of motion. The two strategies employed were the cognitive conflict strategy and the development of ideas strategy. A sequential explanatory mixed-method research design was used during this study. The qualitative data were used to elucidate the quantitative findings. The quantitative research consisted of a quasi-experimental design consisting of a single-group pre-test–post-test method. During the qualitative part of the research a phenomenological research approach was utilised to gain a better understanding of participants’ learning experiences during the intervention. The quantitative research made use of an adapted version of the Force Concept Inventory (FCI). The data collected from the pre-test were used to inform the intervention. The intervention was videotaped and the video analysis or qualitative data analysis was done. After the intervention the post-test was written by the learners. Hake’s average normalised learning gain <g> from pre- to post-scores was analysed to establish the effectiveness of the intervention. The two sets of results (quantitative and qualitative) were integrated. Information from the qualitative data analysis was used to support and explain the quantitative data. The quantitative results indicate that there was an improvement in the students’ force conception from their initial alternative conceptions, such as that of an internal force. Especially the learners’ understanding of contact forces and Newton’s first law of motion yielded significant improvement. The qualitative data revealed that the understanding of Newton’s second law of motion by the learners who partook in this study did improve, since the learners immediately recognised the mistakes made when confronted with the anchor concept. The cognitive conflict teaching strategy was effective in establishing the anchor concept of force which proved to be useful as bridging concept in the development of ideas teaching strategy. The data from both datasets revealed that the cognitive conflict teaching strategy for the initial part of the intervention was effective. It was evident that for development of the idea teaching strategy the two data sets revealed mixed results. Recommendations were made for future research and implementation of conceptual development teaching strategies. / MEd (Natural Sciences Education), North-West University, Potchefstroom Campus, 2014

Newton’s second law of motion

Teaching strategy

Conceptual development

Conceptual understanding

Learning

Cognitive learning theory

Information processing model

Cognitive resources

Newton’s laws of motion

Sequential Explanatory design

Force Concept Inventory (FCI)

Newton se tweede bewegings wet

Onderrig strategie

Konseptuele ontwikkeling

Konseptuele verstaan

Leer

Kognitiewe leer teorie

Inligtings prosseserings model

Kognitiewe hulpbronne

Newton se bewegings wet

Sekwensieële verduidelikings ontwerp

Krag Konsep Register