Licenciatura em Química (Sede)
URI permanente desta comunidadehttps://arandu.ufrpe.br/handle/123456789/26
Siglas das Coleções:
APP - Artigo Publicado em Periódico
TAE - Trabalho Apresentado em Evento
TCC - Trabalho de Conclusão de Curso
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3 resultados
Resultados da Pesquisa
Item O modelo de ensino híbrido rotação por estações no ensino de funções orgânicas: uma proposta didática para o ensino médio(2024-10-03) Barbosa, Lucas Matheus Ferraz; Firme, Ruth do Nascimento; http://lattes.cnpq.br/7234636790850019; http://lattes.cnpq.br/5299531115847633The application of Active Methodologies, Blended Learning Models, and digital technologies aims to increase student engagement and interest, enabling a more attractive and captivating learning process, while fostering their autonomy as protagonists of their own educational development. Active Methodologies (AM) allow the teaching of chemistry, specifically Organic Functions, to be innovatively related by combining in-person and digital activities that encourage student autonomy and engagement. Adopting the blended learning model, this work seeks to explore the integration of AM and digital technologies to enable the understanding of complex concepts, by developing a didactic proposal for teaching Organic Functions in high school based on the Station Rotation Model. To achieve the proposed objective, theoretical research was conducted through two methodological stages: literature review on the theoretical foundations of the research (stage 1); and proposal of a didactic plan (stage 2). The proposed didactic approach was organized into two phases: Activity proposals for lessons on organic functions (Phase 1) and the application of the Station Rotation model (Phase 2). Phase 2 was structured around five stations, which included various activities, such as computer simulations, gamified quizzes, building molecular models with accessible materials, and technological resources using software like MolView and PhET. It is hoped that the implementation of this didactic proposal will significantly contribute to overcoming the traditional difficulties faced by students in understanding abstract and complex content related to Organic Functions, as well as the discussions on Active Methodologies and Blended Learning Models in teacher training, encouraging changes in pedagogical practices in the teaching of Chemistry.Item Ciência, tecnologia, sociedade e arte como estratégia didática para aplicação da Lei 10.639/03 no ensino de Química em turmas da educação de jovens e adultos(2024-03-08) Aquino, Jhonatan Rafael da Silva; Lima, Analice de Almeida; Alves, Cláudia Thamires da Silva; http://lattes.cnpq.br/1831217277642775; http://lattes.cnpq.br/2273105974559580; http://lattes.cnpq.br/7708146705135822In the 21 years since the promulgation of Law 10639/2003 by President Luís Inácio Lula da Silva, there has been a resistance established by public and private schools in applying the legal provisions of this law in their educational curricula. Given this resistance, this work aimed to analyze the contributions of a didactic sequence related to law 10639/03 from the CTS Arte perspective for teaching Chemistry in Youth and Adult Education. The sequence was created with the target audience being students of Youth and Adult Education in the third module. To prepare the sequence, we started from the theoretical assumptions of Oliveira and Queiroz (2013), contemplating: - the choice of a social theme based on a relationship with art; -introduction of a technology; -study and discussion of science and its relationship with technology and society, and -proposing to students the creation of a final scientific-artistic product in the area. The elaborated sequence initially presented a socioeconomic analysis, then a presentation was suggested through the contents of chemistry (scientific knowledge), social issues and artistic elements regarding the composition of vitamins, minerals, carbohydrates, etc. and, finally, creation of artistic activities by students based on the content discussed. The didactic sequence elaborated in this work was guided by the assumptions of the Science, Technology, Society and Arts (CTS-Art) perspective, presenting socio-scientific elements and artistic elements that throughout history we know is a libertarian and fighting instrument in our society, being more an instrument of reflection and struggle in the racist society in which we live.Item Design thinking como estratégia de ensino e aprendizagem na Química: explorando a química ambiental e sustentável no ensino médio(2022-10-18) Nascimento, Rhaysa Myrelle Farias do; Leite, Bruno Silva; http://lattes.cnpq.br/4932752031807872; http://lattes.cnpq.br/1130697619312470Active methodologies are teaching and learning processes that encourage students to overcome challenges and commit to their learning. These methodologies make the student have an active posture, which allows to solve; know and investigate challeng- ing problems that make sense to him. Although active methodologies are favorable for the teaching and learning process in chemistry teaching, they are not yet fully known and applied in the educational context. One of the little known and very current active methodologies is Design Thinking (DT). DT or design thinking, is presented in this work as a teaching and learning strategy that has as main characteristics the possibility of developing in its stages skills such as: critical thinking, empathy, collaboration and en- gagement. This research brings the application of Design Thinking as a teaching and learning strategy with the objective of applying and evaluating the development of the use of Design Thinking involving the content of Environmental Chemistry with third- year high school students in a state reference school in the state of Pernambuco. To meet the objective of this research, the work was carried out in four steps: 1) Environ- ment of the school and survey on the possibilities of implementing Design Thinking in the school reality; 2) Elaboration and evaluation of the didactic strategy of Design Thinking tied to the content of environmental chemistry and sustainable; 3) Analysis of the data obtained on the students' perceptions in relation to the strategy. The results indicate that the application of Design Thinking proved to be of great importance in the classroom, bringing a lot of interaction between students and teachers, with students as main agents of their learning process, developing soft skills, such as empathy and creativity. In summary, the use of the Design Thinking methodology can contribute to the teaching of Chemistry in a ceative, innovative and empathetic way, allowing stu- dents to develop different skills, contributing to make them citizens capable of solving problems, challenges and transforming the society in which they live, in addition to becoming protagonists of their learning process.