Mathematics is a fundamental skill in many aspects of a student's life. Most students everywhere, and in this study in Brazil, sometimes lack motivation to thrive in such subjects. The work presented in this paper aims to contribute to the development of a multiplatform teaching and learning application through the use of Information and Communication Technologies (ICT), in order to encourage the study of mathematics from the first years of basic education. The activities are divided into two areas: training teachers and how to integrate technology in the classroom through the use of mobile learning. The experience was conducted with children from the 5th grade, teaching them fractions and mathematics concepts all as part of a research project ResumenA pesar de que la matemática es una habilidad fundamental, la falta de motivación está causando estudiantes brasileños un pobre desempeño en esta disciplina. El trabajo presentado en este documento tiene como objetivo contribuir al desarrollo de RED. Revista de Educación a Distancia, 52, Artíc. 7. 30-Ene-2016 http://www.um.es/ead/red/52Technology Integration Actions in Mathematics teaching in Brazilian Basic Education: Stimulating STEM disciplines. Priscila C. Nicolete, Simone M. Sommer, Marta A. da Silva, José P. Schardosim y Juarez B. da Silva.Página 2 de 22 diversas prácticas de enseñanza y aprendizaje a través del uso de las Tecnologías de la información y la comunicación (TIC), con el fin de motivar el estudio de las matemáticas desde los primeros años de educación básica. Las actividades se dividen en dos áreas: una enfocada en la formación y capacitación de los maestros y la otra centrada en la integración de tecnologías en el aula a través del uso del aprendizaje móvil. La experiencia se realizó con niños de 5º año, mediante la enseñanza de los conceptos de fracciones. Las actividades son parte del proyecto denominado "Propuesta de integración de la tecnología en la enseñanza de disciplinas STEM en la educación básica pública", con el apoyo del CNPq -Consejo Nacional de Desarrollo Científico y Tecnológico, y el proyecto "Uso de experimentación remota en dispositivos móviles para la educación básica en las escuelas públicas" con el apoyo de FRIDA (Fondo Regional para la Innovación Digital en América Latina y el Caribe). En 2011, este proyecto fue seleccionado como uno de los cuatro proyectos más innovadores en la educación brasileña, en una selección realizada por el Instituto para el Desarrollo y la Innovación Educativa (IDIE) de la Organización de Estados Iberoamericanos para la Educación, Ciencia y Cultura (OEI) y patrocinado por la Fundación Telefónica.
Abstract-The remote experimentation labs provide students an opportunity to conduct scientific experiments at any time and on any device connected to the Internet. To this end, each experiment must be designed to meet these characteristics and educational needs. In this paper it will be described the implementation of the "DC Electrical Panel", addressing its main features such as modules, architecture, modeling, and other technical aspects that allow the remote access. Currently the Remote Experimentation Laboratory (RExLab) has eight (8) labs in the areas of physics and biology, in the three levels of education; Elementary School, Secondary School and Higher Education.
In this paper we report a technology integration experience within the Basic Education, from the use of mobile devices. The proposed environment is based on open digital learning content that is accessed via mobile devices and complemented by the use of remote experiments. The integration of mobile devices, virtual learning environment for the provision of educational materials and physical experiments remotely accessed, give students a new way to interact with the subjects in a simple and enjoyable way anywhere and anytime. The implemented architecture is based entirely on open source software and open-hardware resources that include a learning management system, an application for mobile devices and remote experiments developed by Remote Experimentation Lab of the Federal University of Santa Catarina. Although the pilot project is being implemented in 4 public Basic Education Schools and covers 287 teachers and 3,201 students, this document will report the integration of technology in high school physics courses in one of the schools.
Even though many researchers point to the lack of appropriate models for guidance on the integration of technology in education, this article seeks to point toward a model through actions that show the need for teachers being multifaceted regarding the new educational paradigm. To do so, it will be considered the contributions of TPACK framework on integration of technology in Basic Education in public schools. Even before pointing solutions ready for the use of technology in education, it is necessary to know and make the teachers know themselves, making them realize their convictions and technological knowledge, and bring them to assess the necessity of improvement, in order to achieve efficiency in the process of integrating digital media and computer knowledge in their didactic and pedagogical practice, such as in the use of resources such as Mobile Learning or Remote Experimentation. The study highlights the importance of the three types of knowledgetechnological, pedagogical and content -to the teachers committed to the efficient integration of technology into their lessons. In addition to investigating the teachers' perception of the technological resources and their own teaching practices, this study presents a detailed picture of the actual situation through analysis of the results obtained through the questionnaire TPACK, in the Basic Education in Santa Catarina, Brazil.
Os Laboratórios Remotos Aumentados (LRA) configuram-se pela união de técnicas de Realidade Aumentada com Laboratórios Remotos, permitindo que os usuários desses laboratórios obtenham experiências mais profundas em suas práticas educacionais. Nesse sentido, o estudo aqui exposto consiste na apresentação de um LRA a fim de criar novas oportunidades para o ensino dos conceitos básicos de eletricidade e circuitos elétrico.
The STEM subjects (Science, Technology, Engineering, and Mathematics) are very important for education, but the lack of experimental laboratories for these subjects in a school might decrease the interest of its students in STEM fields. This chapter explores these issues in the Brazilian context where, in order to address this issue, remote experiments are used to share real experiments manipulated through the Internet. Teachers and students can use remote laboratories, equipped with real experiments, to put in practice theoretical concepts learned in class. This chapter presents a report on a pilot project that aims to explore the use of Mobile Remote Experimentation (MRE) by teachers and students of public high schools in Brazil. It involves the use of mobile devices to access remote experiments in STEM subjects through the Internet. The report demonstrates the effectiveness of using such educational resources to improve pedagogical results by applying the TPACK (Technological Pedagogical Content Knowledge) model to measure the impact of MRE by STEM teachers.
The STEM subjects (Science, Technology, Engineering, and Mathematics) are very important for education, but the lack of experimental laboratories for these subjects in a school might decrease the interest of its students in STEM fields. This chapter explores these issues in the Brazilian context where, in order to address this issue, remote experiments are used to share real experiments manipulated through the Internet. Teachers and students can use remote laboratories, equipped with real experiments, to put in practice theoretical concepts learned in class. This chapter presents a report on a pilot project that aims to explore the use of Mobile Remote Experimentation (MRE) by teachers and students of public high schools in Brazil. It involves the use of mobile devices to access remote experiments in STEM subjects through the Internet. The report demonstrates the effectiveness of using such educational resources to improve pedagogical results by applying the TPACK (Technological Pedagogical Content Knowledge) model to measure the impact of MRE by STEM teachers.
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