publications

books

  1. Carreira, Susana; Jones, Keith; Amado, Nélia; Jacinto, Hélia; Nobre, Sandra. 2016. Youngsters Solving Mathematical Problems with Technology. Cham: Springer International Publishing. [DOI]
  2. Kennedy, Ian G.; Latham, Gloria; Jacinto, Hélia. 2016. Education Skills for 21st Century Teachers. Cham: Springer International Publishing. [DOI]

book chapters

  1. Jacinto, Hélia Maria da Venda. 2019. “A Model of Mathematical Problem Solving with Technology: The Case of Marco Solving-and-Expressing Two Geometry Problems”. [DOI]
  2. Jacinto, Hélia. 2018. “Different Levels of Sophistication in Solving and Expressing Mathematical Problems with Digital Tools”. [DOI]
  3. Susana Carreira; Keith Jones; Nélia Amado; Hélia Jacinto; Sandra Nobre. 2016. “Mathematical Problem-Solving with Technology: An Overview of the Problem@Web Project”. In Youngsters Solving Mathematical Problems with Technology. Springer. [DOI]
  4. Susana Carreira; Keith Jones; Nélia Amado; Hélia Jacinto; Sandra Nobre. 2016. “Youngsters Solving Mathematical Problems with Technology: Their Experiences and Productions”. In Youngsters Solving Mathematical Problems with Technology.. Springer. [DOI]
  5. Susana Carreira; Keith Jones; Nélia Amado; Hélia Jacinto; Sandra Nobre. 2016. “Perspectives of Teachers on Youngsters Solving Mathematical Problems with Technology”. In Youngsters Solving Mathematical Problems with Technology.. Springer. [DOI]
  6. Susana Carreira; Keith Jones; Nélia Amado; Hélia Jacinto; Sandra Nobre. 2016. “Theoretical Perspectives on Youngsters Solving Mathematical Problems with Technology”. In Youngsters Solving Mathematical Problems with Technology.. Springer. [DOI]
  7. Susana Carreira; Keith Jones; Nélia Amado; Hélia Jacinto; Sandra Nobre. 2016. “Digitally Expressing Co-variation in a Motion Problem”. In Youngsters Solving Mathematical Problems with Technology. Springer. [DOI]
  8. Susana Carreira; Keith Jones; Nélia Amado; Hélia Jacinto; Sandra Nobre. 2016. “Youngsters Solving Mathematical Problems with Technology: Summary and Implications”. In Youngsters Solving Mathematical Problems with Technology. Springer. [DOI]
  9. Ian G. Kennedy; Gloria Latham; Hélia Jacinto. 2016. “Mixed Methods”. In Education Skills for 21st Century Teachers. Springer. [DOI]
  10. Ian G. Kennedy; Gloria Latham; Hélia Jacinto. 2016. “The Literature Review”. In Education Skills for 21st Century Teachers. Springer. [DOI]
  11. Ian G. Kennedy; Gloria Latham; Hélia Jacinto. 2016. “Discussion”. In Education Skills for 21st Century Teachers. Springer. [DOI]
  12. Ian G. Kennedy; Gloria Latham; Helia Jacinto. 2016. “Conclusion”. In Education Skills for 21st Century Teachers. Springer. [DOI]
  13. Stepniak, Daniel. 2016. “Comparative Analysis Findings”. In Education Skills for 21st Century Teachers, 351-416. Springer International Publishing. [DOI]
  14. Kennedy, Ian G.; Latham, Gloria; Jacinto, Hélia. 2016. “Introduction”. In Education Skills for 21st Century Teachers, 1-4. Springer International Publishing. [DOI]
  15. Ian G. Kennedy; Gloria Latham; Helia Jacinto. 2016. “Results of Thematic Analysis”. In Education Skills for 21st Century Teachers. Springer. [DOI]

journals

  1. Jacinto, Hélia; Carreira, Susana (2021). Digital Tools and Paper-and-Pencil in Solving-and-Expressing: how Technology expands a Student’s Conceptual Model of a Covariation Problem. Journal on Mathematics Education, 12(1), 113-132. [Doi]
  2. Carreira, S., Amado, N., & Jacinto, H. (2020). Venues for Analytical Reasoning Problems: How Children Produce Deductive Reasoning. Education Sciences, 10(6):169. [Doi]
  3. Jacinto, Hélia; Carreira, Susana (2017a). “Mathematical Problem Solving with Technology: the Techno-Mathematical Fluency of a Student-with-GeoGebra”. International Journal of Science and Mathematics Education, 15(6), 1115-1136. [Doi]
  4. Jacinto, Hélia; Carreira, Susana (2017b). “Diferentes Modos de Utilização do GeoGebra na Resolução de Problemas de Matemática para Além da Sala de Aula: evidências de fluência tecno-matemática”. Bolema: Boletim de Educação Matemática31(57), 266-288. [Doi]

conferences

  1. Jacinto, Hélia ; Carreira, Susana. 2019. “CONEXÕES ENTRE TECNOLOGIA E MATEMÁTICA PARA RESOLVER PROBLEMAS: EVIDÊNCIAS DE FLUÊNCIA TECNO-MATEMÁTICA NO CASO DE BEATRIZ”. Trabalho apresentado em EIEM 2019 – Encontro de Investigação em Educação MatemáticaLoulé, Portugal. Portugal.
  2. Jacinto, Hélia ; Vara-Pires, Manuel. 2019. “Tarefas e recursos para a promoção de conexões matemáticas”. Trabalho apresentado em EIEM 2019 – Encontro de Investigação em Educação Matemática.
  3. Jacinto, Hélia ; Carreira, Susana. 2017. “RESOLUÇÃO DE PROBLEMAS DE MATEMÁTICA COM O GEOGEBRA: ASPETOS DO PENSAMENTO GEOMÉTRICO NO DESENVOLVIMENTO DE MODELOS CONCEPTUAIS”. In O Ensino e a Aprendizagem da GeometriaEIEM 2017 – Encontro de Investigação em Educação MatemáticaLisboa, Portugal, 65-78. Portugal: SPIEM.
  4. Jacinto, Hélia Maria da Venda; Carreira, Susana; Maria Alessandra Mariotti. 2016. “Mathematical Problem Solving with Technology Beyond the Classroom: The use of Unconventional Tools and Methods.”. In Proceedings of the 40th Conference of the International Group for the Psychology of Mathematics Education40th Conference of the International Group for the Psychology of Mathematics EducationSzeged, Hungria, 27-34. IGPME.
  5. Jacinto, Hélia Maria da Venda; Carreira, Susana. 2016. “Mathematical Problem Solving with Technology: The case of Marco solving-and-expressing on the screen”. In Proceedings of the International Congress on Mathematics Education – ICME 13International Congress on Mathematics Education – ICME 13Hamburg – Germany.
  6. Jacinto, Hélia Maria da Venda; Carreira, Susana. 2015. “Solving problems on the screen: Digital tools supporting solving-and-expressing”. In Proceedings of the 12th International Conference on Technology in Mathematics Teaching – ICTMT1212th International Conference on Technology in Mathematics Teaching – ICTMT12Faro, Portugal.
  7. Jacinto, Hélia Maria da Venda; Carreira, Susana. 2015. “A framework for describing techno-mathematical fluency in beyond-school problem solving”. In Proceedings of the Ninth Congress of the European Society for Research in Mathematics EducaCERME9 – 9th Congress of the European Society for Research in Mathematics EducationPraga, República Checa.
  8. Jacinto, Hélia Maria da Venda; Carreira, Susana. 2013. “Beyond-school mathematical problem solving: a case of students-with-media”. In Proceedings of the 37th Conference of the International Group for the Psychology of Mathematics Education37th Conference of the International Group for the Psychology of Mathematics EducationKiel, Alemanha, 105-112. IGPME.
  9. Jacinto, Hélia Maria da Venda; Carreira, Susana. 2012. “Problem solving in and beyond the classroom: perspectives and products from participants in a web-based mathematical 16 competition”. In Proceedings of the International Congress on Mathematics Education – ICME 12International Congress on Mathematics Education – ICME 12Seoul, Coreia do Sul.
  10. Jacinto, Hélia Maria da Venda; Carreira, Susana; Amado, Nélia. 2011. “Home technologies: how do they shape beyond-school mathematical problem solving activity?”. In Proceedings of the 10th International Conference on Technology in Mathematics Teaching – ICTMT10The 10th International Conference on Technology in Mathematics Teaching – ICTMT10Southampton, Reino Unido.

magazines

  1. Jacinto, Hélia ; Carreira, Susana; Amado, Nélia. ““Não te esqueças de explicar o teu processo de resolução!” Expressões do pensamento matemático na resolução de problemas com tecnologias”. Educação e Matemática, 2018/12: 76-80. [LINK]
  2. Silvestre, Ana Isabel; Nunes, Cláudia; Jacinto, Hélia. “Lesson study – Melhorar a aprendizagem dos alunos através da prática profissional colaborativa dos professores”. Educação e Matemática, 2016/09: 13-16. [Link]
  3. Jacinto, Hélia ; Carreira, Susana. “Resolver problemas de matemática: um desafio ao alcance de todos, fora e dentro da sala de aula”. Educação e Matemática, 2014/12: 71-77. [Link]
  4. Caseiro, Ana; Jacinto, Hélia. “Espaço GTI. Da investigação à prática”. Educação e Matemática, 2012/02: 34-35. [Link]