DAEF - Departamento Acadêmico de Educação Básica e Formação de Professores
URI permanente desta comunidadehttps://ri.ifam.edu.br/handle/4321/539
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Item Aprendizagem significativa no ensino da matemática: uma proposta para aprendizagem no ensino médio técnico(2017-02-16) Fernandes, Cristina Maria da Silva; Botelho, Judimar Carvalho; http://lattes.cnpq.br/1015701449764018; Oliveira, Andréia Pinto de; http://lattes.cnpq.br/4751206740233356; Oliveira, Andréia Pinto de; http://lattes.cnpq.br/4751206740233356; Botelho, Judimar Carvalho; http://lattes.cnpq.br/1015701449764018; Oliveira, José Ribamar Silva de; http://lattes.cnpq.br/1015701449764018Item O uso da experimentação no ensino da eletricidade e magnetismo no 9º ano do ensino fundamental(2019-12-04) Neri, Mateus Oliveira; Herculano, Ricardo de Almeida; http://lattes.cnpq.br/4506729004612039; Herculano, Ricardo de Almeida; http://lattes.cnpq.br/4506729004612039; Ferreira, Danielle Cristina Oliveira; http://lattes.cnpq.br/3971794341049346; Cordeiro Neto, Marcelino; http://lattes.cnpq.br/0074451912167520This is a proposal for the use of experimentation to teach electricity and magnetism in the 9th grade of Elementary School, which was carried out together with the Supervised Internship at the José Roberto Tadros Education Center - SESC in two 9th grade classes, with a quantity total of 70 students. The general objective of this work is to demonstrate that the use of experimentation can provide meaningful learning, and the specific objectives are: to investigate through observation, relevant characteristics of students for organization and planning of conducting; identify students' prior knowledge; use experiments to teach electricity and magnetism; and relate theoretical knowledge to experimental knowledge. This work is divided into four moments: observation, conducting, experimentation and data collection. This is based on the Theory of Meaningful Learning, proposed by David Ausubel in which a previous knowledge is related to a new knowledge, giving rise to a new knowledge present in the student's cognitive structure. During the project, two activities are proposed to students, one at the end of observation and the other at the end of experimentation. Thus, when analyzing the results obtained through the responses, it was found that learning, in fact, was significant.Item O uso de videoanálise no ensino de colisões em uma escola pública da cidade de Manaus(2019-12-04) Montoli, Guilherme Almeida; Cabral Neto, João dos Santos; http://lattes.cnpq.br/9340150562756599; Cabral Neto, João dos Santos; http://lattes.cnpq.br/9340150562756599; Rivera, José Anglada; http://lattes.cnpq.br/5724564590431920; Farias, Fabricio de Oliveira; http://lattes.cnpq.br/6265424660011447This monograph highlights the use of video analysis in the teaching of collisions. How can we handle cases where the collision is not perfectly elastic (or inelastic) and describe the phenomenon? The real cases commonly observed are not those with = 0 or 1. We consider that the collision between two objects in which a ball falls to the ground is frontal and that the masses of the objects are known; the initial and final speeds of the ball will be determined with the Tracker software and with them we could know the restitution coefficient. The objective of this research was to evaluate how the use of computer simulators, through the one-dimensional collision problem (for cases in which the restitution coefficient assumes values 0 < <1), can be significant (or not) for teaching Physics. The research presented here is of a descriptive qualitative and quantitative approach, which, in the quantitative part, seeks to involve obtaining descriptive data about people, places and interactive processes by the direct contact of the researcher with the studied situation, seeking to understand the phenomena from the perspective of the subjects , that is, of the participants in the situation under study. When framed as a qualitative research, the approaches used for such purposes were the action research that can be labeled in such a way when there is really an action on the part of the people involved in the investigative process, seen from a social action project or from the solving collective problems and being centered on participatory action and the ideology of collective action. Six moments are worked on, in which the first moment refers to the students' previous content. The second moment is about the presentation of the collision content. The third moment will be the presentation of the Tracker. The fourth step is the application of action research to the collision problem. The fifth moment was video analysis. The sixth and final moment was the application of the final questionnaire. Despite the efforts the students did not obtain a significant learning due to lack of previous knowledge to understand the subjects taught in the classroom and with the use of the Tracker.