\input zb-basic
\input zb-matheduc
\iteman{ZMATH 06675771}
\itemau{Joubert, Marie}
\itemti{Revisiting theory for the design of tasks: special considerations for digital environments.}
\itemso{Leung, Allen (ed.) et al., Digital technologies in designing mathematics education tasks. Potential and pitfalls. Cham: Springer (ISBN 978-3-319-43421-6/hbk; 978-3-319-43423-0/ebook). Mathematics Education in the Digital Era 8, 17-40 (2017).}
\itemab
Summary: Teachers should and do design tasks for the mathematics classroom, with specific mathematical learning as the objective. Completing the tasks should require students to engage in dialectics of action, formulation and validation and to move between the pragmatic/empirical field and the mathematical/systematic field. In the classroom, students act within a milieu, and where computers are part of this milieu, particular considerations with respect to task design include questions about the mathematics the student does and the mathematics the computer does, and the role of feedback from the computer. Whilst taking into account the role of the computer, the design of tasks can also be guided by theoretical constructs related to obstacles of various kinds; ontogenic, didactical and epistemological, and, whereas the first two should be avoided, the third should be encouraged. An example of a task taken from empirical research in an ordinary classroom is used to illustrate some of these ideas, also demonstrating how difficult and complex it is for many teachers to design tasks that use computer software in ways that provoke the sort of student activity that would be likely to lead to mathematical learning. Implications for teacher professional development are discussed.
\itemrv{~}
\itemcc{D50 U70 D30}
\itemut{task design; feedback; modes of production; pragmatic/empirical field; mathematical/systematic field; digital tools; epistemological obstacles}
\itemli{doi:10.1007/978-3-319-43423-0\_2}
\end