Educação cognitiva: Estudo dos efeitos de um programa e-leraning de desenvolvimento cognitivo através da matemática em alunos do 8º ano de escolaridade

Partindo do princípio que a cognição é modificável e alterável, surge a educação cognitiva. Este repensar da educação converge com a necessidade de uma educação para a diversidade e inclusão. Ao mesmo tempo surgem as novas tecnologias, cada vez mais presentes. Focando os processos de criatividade e resolução de problemas, construímos um programa e-learning de desenvolvimento cognitivo através da matemática (PEDCM) e estudamos os efeitos da implementação do mesmo. A metodologia utilizada foi a quasi-experimental, com pré e pós-teste e sem grupo de controlo. A amostra foi constituída por 1O alunos de uma turma do 8° ano da Escola EB 2,3 Conde de Vilalva, em Évora. Os instrumentos utilizados foram: o Teste de Auto-conceito de Susan Harter; Matrizes Standard de Raven; Bateria de Provas de Raciocínio; Teste de Pensamento Criativo de Torrance e o PEDCM. Este último foi implementado durante 10 sessões (com 1h30m cada). Os resultados obtidos demonstram efeitos positivos evidentes da implementação PEDCM, ao nível do desempenho cognitivo, desempenho criativo, no auto-conceito e principalmente no rendimento escolar. ABSTRACT: Starting from the principle that cognition is alterable and modifiable, rises the cognitive education. This rethinking of education converges with an education for diversity and inclusion. Parallelly the new technologies rise, more and more present in education. Focusing on the processes of creativity and problem resolution and we've built an e-learning program of cognitive development through mathematics (PEDCM) and studied the effects of its implementation. The used methodology was the almost experimental, with pre and post test without a group of control. The show was built by 1O students of a class of 8th grade of the school EB2,3 Conde de Vilalva in Évora. The instruments used were: the Test of Self­Concept by Susan Harter; Standard Registries by Raven; Set of Reasoning Tests; Test of Creative Thought from Torrance and the PEDCM, implemented for 10 sessions (of 1.30h each). The results attained show the positive effects evident from the implementation of the PEDCM, to the level of cognitive performance, creative performance, in the self concept and particularly in the school results.

Assessing the Role of General Chemistry Learning in Higher Education

The inclusion of General Chemistry (GC) in the curricula of higher education courses in science and technology aims, on the one hand, to develop students' skills necessary for further studies and, on the other hand, to respond to the need of endowing future professionals of knowledge to analyze and solve multidisciplinary problems in a sustainable way. The participation of students in the evaluation of the role played by the GC in their training is crucial, and the analysis of the results can be an essential tool to increase success in the education of students and improving practices in various professions. Undeniably, this work will be focused on the development of an intelligent system to assess the role of GC. The computational framework is built on top of a Logic Programming approach to Knowledge Representation and Reasoning, complemented with a problem solving methodology moored on Artificial Neural Networks. The results so far obtained show that the proposed model stands for a good start, being its overall accuracy higher than 95%.