Mestrado Profissional em Ensino de Física
URI permanente desta comunidadehttps://ri.ifam.edu.br/handle/4321/31
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3 resultados
Resultados da Pesquisa
Item O efeito doppler de ondas eletromagnéticas a partir de sequência didática(2024-08-02) Teixeira, José Victor Bezerra; Borges, Denilson da Silva; http://lattes.cnpq.br/7149037835888302; Borges, Denilson da Silva; http://lattes.cnpq.br/7149037835888302; Picinin, Adalberto; Oliveira, Rita de Cássia Mota Teixeira de; http://lattes.cnpq.br/3997091837851642The search for improvements in physics teaching is intrinsically challenging and exciting, often requiring professionals to have knowledge beyond physics, as in the case of this work, which addresses the Doppler-Fizeau effect in Electromagnetic waves using Digital Technologies. Information and Communication (TDIC). Especially, when viewing the work in this field, one came across the limitation in approaching this effect for mechanical waves. Therefore, the present work consists of a Didactic Sequence (SD), guided by Ausubel's Meaningful Learning Theory (TAS), focused on electromagnetic waves. In this way, active methodologies were used, enabling the student to be the protagonist of the teaching-learning process using Arduino. Therefore, the impacts that the use of TDICs contributed to learning, especially in Modern Physics, were investigated. This SD was applied to a 3rd grade high school class for 8 days in progressive stages: (i) introduction, seeking to familiarize participants with the necessary concepts and Arduino, (ii) development, including practical programming activities with Arduino and ( iii) conclusion, which consisted of the experimental application to investigate the phenomenon studied in microwaves, which culminated in a doppler frequency signal observer, reflection speed meter and automated door simulation. Therefore, this DS exposed signs of significant learning found through questionnaires, conversation circles and continuous observation, which revealed an increase in performance. Thus, the importance of making physics teaching contextualized is clear, as it was possible to verify the connection of concepts that were previously disconnected from the student's reality, being then substantially related to technological applications, promoting comprehensive training through understanding the conceptualization, experimental and attitudinal procedures when relating critically to the environment in which it is inserted.Item Percurso didático: uma alternativa para a compreensão da condução de calor(2024-07-15) Costa, Hiram Jephson Gabriel da; Adão Neto, Minos MartinsItem Sequência didática para o ensino sobre a condução de calor(2024-07-15) Costa, Hiram Jephson Gabriel da; Adão Neto, Minos Martins; http://lattes.cnpq.br/6102062332483035; Adão Neto, Minos Martins; http://lattes.cnpq.br/6102062332483035; Guilherme, Adriano Pereira; http://lattes.cnpq.br/9119402956173089; Braga, Marcel Bruno Pereira; http://lattes.cnpq.br/1142247924140098The present study aims to investigate the development and implementation of a didactic sequence for teaching heat conduction, within the context of Physics teaching in Brazil. The central research question is: how can the implementation of a didactic sequence based on experiments impact the learning of heat conduction concepts? To answer this question, the study is based on Jerome Bruner's Discovery Learning Theory, which highlights the importance of students' prior knowledge in the assimilation of new concepts. The method adopted involves the creation of a didactic sequence that combines experimental activities, theoretical reflections and critical questions, aiming to actively engage students in the learning process. The research highlights the use of Problem-Based Learning (PBL) and other innovative methodologies, which place the student at the center of the learning process, promoting the development of cognitive and practical skills. The conclusions of the study indicate that the didactic sequence developed was effective in promoting a deeper understanding of concepts related to heat conduction. The results show that the integration between theory and practice, through experimental activities, reinforces students' prior knowledge and motivates the exploration and understanding of physical phenomena in a more meaningful way. Furthermore, the study suggests that this approach can be applied in other contexts of Physics teaching, contributing to improving the quality of teaching and learning in the area.