1. Chapman, T., Sholukha, V., Semal, P., Louryan, S., Rooze, M., Van Sint Jan, S.: Femoral curvature variability in modern humans using three-dimensional quadric surface fitting. Surg. Radiol. Anat. 37, 1169–1177 (2015). https://doi.org/10.1007/s00276-015-1495-7

2. Guillén, D.A., Puga, K.L., Puga, M.E.: Design of a playful environment for the manipulation of mathematical objects in 3D. AMUITEM ELECTRONIC MAGAZINE. Vol. VI, No. 1. Periodical Publication of the Mexican Association of Researchers of the Use of Technology in Mathematics Education. ISSN: 2395–955X. Mexico (2018). http://funes.uniandes.edu.co/20387/1/Guillen2018Dise%C3%B1o.pdf

3. Hoyos-Salcedo, E.A., Acosta-Minoli, C.A., Aristizábal-Zapata, J.H., Mesa-Mazo, M.J., Trujillo-Salazar, C.A., Rincón-Penagos, J.A., … Jaime-Pastor, A.: Influence of educational software in the consolidation of the learning of quadric surfaces. Tecne, Epis-teme and Didaxis: TED 49, 123–142 (2021). https://doi.org/10.17227/ted.num49-9574

4. Kuzniak, A., Richard, P.: Mathematical workspaces. Points of view and perspectives. Relime 17(4), 9–10 (2014). https://doi.org/10.12802/relime.13.1741a

5. Kuzniak, A., Nechache, A.: A methodology to analyze the personal work of students in the theory of mathematical workspaces. In: Montoya, E. (Presidency) Space for Mathematical Work. Symposium held at the Sixth MWS International Symposium, Valparaíso, Chile (2018)