M. M. Alqahtani and A. B. Powell, Teachers' Instrumental Genesis and Their Geometrical Understanding in a Dynamic Geometry Environment, Digital Experiences in Mathematics Education, vol.3, issue.1, pp.9-38, 2017.

,

M. M. Alqahtani and A. B. Powell, Teachers' Support of Students' Instrumentation in A Collaborative, Dynamic, Geometry Environment, Proceeding of the 12th International Conference on Technology in Mathematics Teaching-ICTMT12, pp.268-276, 2015.

C. Angeli and N. Valanides, Preservice elementary teachers as information and communication technology designers: An instructional systems design model based on an expanded view of pedagogical content knowledge: ICTrelated PCK: a model for teacher preparation, Journal of Computer Assisted Learning, vol.21, issue.4, pp.292-302, 2005.

C. Angeli and N. Valanides, Epistemological and methodological issues for the conceptualization, development, and assessment of ICT-TPCK: Advances in technological pedagogical content knowledge (TPCK), Computers & Education, vol.52, issue.1, pp.154-168, 2009.

M. Artigue, Le Logiciel "Derive" comme revelateur de phénomènes didactiques liés à l'utilisation d'environnements informatiques pour l'apprentissage, Educational Studies in Mathematics, vol.33, issue.2, pp.133-169, 1997.

M. Artigue, Learning mathematics in a CAS environment: The genesis of a reflection about instrumentation and the dialectics between technical and conceptual work, International Journal of Computers for Mathematical Learning, vol.7, issue.3, pp.245-274, 2002.
URL : https://hal.archives-ouvertes.fr/hal-02367871

T. Assude, Teacher's practices and degree of ICT integration, Proceedings of the fifth congress of the European Society for Research in Mathematics Education, pp.1339-1348, 2007.

, acher's_practices_and_degree_of_ICT_integration/links/54abf3d10cf25c4c472f

, c626/Teachers-practices-and-degree-of-ICT-integration

T. Assude and J. Gelis, La dialectique ancien-nouveau dans l'intégration de Cabri-géomètre à l'école primaire, Educational Studies in Mathematics, vol.50, issue.3, pp.259-287, 2002.

N. Balacheff, CK¢, a model to reason on learners' conceptions, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00853856

, PME-NA Psychology of Mathematics Education North America Chapter, pp.2-15

N. Balacheff and C. Margolinas, CK? Modèle de connaissances pour le calcul de situations didactiques, pp.1-32, 2005.

Y. Baulac, F. Bellemain, and J. Laborde, Cabri-géomètre, un logiciel d'aide à l'enseignement de la géométrie, logiciel et manuel d'utilisation, 1988.

F. Bellemain, Conception, réalisation et expérimentation d'un logiciel d'aide à l'enseignement de la géométrie: Cabri-géomètre, 1992.

K. Beswick and M. Goos, Mathematics teacher educator knowledge: What do we know and where to from here, Journal of Mathematics Teacher Education, vol.21, issue.5, pp.417-427, 2018.

I. Bloch, L'articulation du travail mathématique du professeur et de l'élève dans l'enseignement de l'analyse en première scientifique, Recherches En Didactique Des Mathématiques, vol.19, issue.2, pp.135-194, 1999.

G. Brousseau, Le contrat didactique: Le milieu, Recherches En Didactique Des Mathematiques, vol.9, issue.3, pp.309-336, 1990.
URL : https://hal.archives-ouvertes.fr/hal-00686012

G. Brousseau, Theory of Didactical Situations in Mathematics, 1997.
URL : https://hal.archives-ouvertes.fr/hal-00699759

G. Brousseau, N. Brousseau, and V. P. Warfield, Teaching fractions through situations: A fundamental experiment, 2014.

L. Bueno-ravel and G. Gueudet, Online Resources in Mathematics: Teachers' Genesis of Use, Proceedings of the fifth congress of the European Society for Research in Mathematics Education, pp.1369-1378, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00459558

J. Cai and T. Wang, Conceptions of effective mathematics teaching within a cultural context: Perspectives of teachers from China and the United States, Journal of Mathematics Teacher Education, vol.13, issue.3, pp.265-287, 2010.

,

C. Cayton, K. Hollebrands, S. Okumu?, and E. Boehm, Pivotal teaching moments in technology-intensive secondary geometry classrooms, Journal of Mathematics Teacher Education, vol.20, issue.1, pp.75-100, 2017.

,

R. M. Chisholm, Theory of knowledge, 1989.

C. Christou, N. Mousoulides, M. Pittalis, and D. Pitta-pantazi, Problem Solving and Problem Posing in a Dynamic Geometry Environment, The Mathematics Enthusiast, vol.2, issue.2, pp.125-143, 2005.

K. F. Cochran, J. A. Deruiter, and R. A. King, Pedagogical Content Knowing: An Integrative Model for Teacher Preparation, Journal of Teacher Education, vol.44, issue.4, pp.263-272, 1993.

M. Cochran-smith, S. Lytle, and L. , Whole language plus: Essays on literacy in the United States and New Zealand, 1993.

,

Y. Copur-gencturk and S. T. Lubienski, Measuring mathematical knowledge for teaching: A longitudinal study using two measures, Journal of Mathematics Teacher Education, vol.16, issue.3, pp.211-236, 2013.

S. Demir, Two Inseparable Facets of Technology Integration Programs: Technology and Theoretical Framework, Eurasia Journal of Mathematics, vol.7, issue.2, pp.75-88, 2011.

H. M. Doerr and R. Zangor, Creating Meaning for and with the Graphing Calculator, Educational Studies in Mathematics, vol.41, issue.2, pp.143-163, 2000.

A. Dove and K. Hollenbrands, Teachers' scaffolding of students' learning of geometry while using a dynamic geometry program, International Journal of Mathematical Education in Science and Technology, vol.45, issue.5, pp.668-681, 2014.

P. Drijvers, Digital Technology in Mathematics Education: Why It Works (Or Doesn't), Selected Regular Lectures from the 12th, 2015.

, , pp.135-151

P. Drijvers, M. Doorman, P. Boon, H. Reed, and K. Gravemeijer, The teacher and the tool: Instrumental orchestrations in the technology-rich mathematics classroom, Educational Studies in Mathematics, vol.75, issue.2, pp.213-234, 2010.

,

P. Drijvers, S. Tacoma, A. Besamusca, M. Doorman, and P. Boon, Digital resources inviting changes in mid-adopting teachers' practices and orchestrations, vol.45, pp.987-1001, 2013.

Y. Duan, Z. Yan, and K. Zhang, A study on the composition of TPACK for junior middle school mathematics teachers, E-Education Research, vol.4, pp.116-122, 2015.

M. Eraut, Developing Professional Knowledge and Competence, 1994.

I. Erfjord, Teachers' initial orchestration of students' dynamic geometry software use: Consequences for students' opportunities to learn mathematics, Technology, Knowledge and Learning, vol.16, issue.1, pp.35-54, 2011.

P. A. Ertmer, D. Conklin, and J. Lewandowski, Points of view or opinions stated in this document do not necessarily represent official OERI position or policy, Teacher Education Quarterly, vol.30, issue.1, pp.95-112, 2003.

L. Fan, Investigating the pedagogy of mathematics: How do teachers develop their knowledge?, 2014.

W. Fan, A Case Study of Using Geometric Sketchpad to Carry Out Exploratory Mathematics Learning, China Educational Technology, vol.4, pp.34-36, 2003.

,

P. P. Grimmett and A. M. Mackinnon, Craft Knowledge and the Education of Teachers, Review of Research in Education, vol.18, issue.1, pp.385-456, 1992.

,

B. Grunbaum, Shouldn't We Teach GEOMETRY?, The Two-Year College Mathematics Journal, vol.12, issue.4, pp.232-238, 1981.

S. Guerrero, Technological Pedagogical Content Knowledge in the Mathematics Classroom, Journal of Computing in Teacher Education, vol.26, issue.4, pp.132-139, 2010.

G. Gueudet and L. Trouche, Conceptions et usages de ressources pour et par les professeurs, développement associatif et développement professionnel. Dossiers De l'Ingénierie Educative, vol.65, pp.78-82, 2009.

G. Gueudet and L. Trouche, Towards new documentary systems for mathematics teachers, Educational Studies in Mathematics, vol.71, issue.3, pp.199-218, 2009.

G. Gueudet and L. Trouche, Mathematics teacher education advanced methods: An example in dynamic geometry, ZDM, vol.43, issue.3, pp.399-411, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00605493

,

J. Guo, Let CAI add Wings to Classroom Teaching: On the Characteristics of Geometer's Sketchpad and Its Application in High School Mathematics Teaching. Mathematics Teaching Communication, vol.27, pp.16-18, 2012.

B. Guven, Using Dynamic Geometry Software to Gain Insight into a Proof, International Journal of Computers for Mathematical Learning, vol.13, issue.3, pp.251-262, 2008.

L. Haggarty and B. Pepin, An Investigation of Mathematics Textbooks and their Use in English, French and German Classrooms: Who gets an opportunity to learn what?, British Educational Research Journal, vol.28, issue.4, pp.567-590, 2002.

,

J. Han and Y. Ma, The Investigation on the Situation of Middle School Mathematics Teachers' Teacher Knowledge. Global Education, vol.4, pp.106-117, 2016.

J. Harris, P. Mishra, and M. Koehler, Teachers' Technological Pedagogical Content Knowledge and Learning Activity Types: Curriculum-based Technology Integration Reframed, Journal of Research on Technology in Education, vol.41, issue.4, p.24, 2009.

L. Healy, Identifying and explaining geometrical relationship: Interactions with robust and soft Cabri constructions, Proceedings of the Conference of the International Group for the Psychology of Mathematics Education (PME), vol.1, pp.1-103, 2000.

L. Healy and C. Hoyles, Software Tools for Geometrical Problem Solving: Potentials and Pitfalls, International Journal of Computers for Mathematical Learning, vol.6, pp.63-86, 2001.

S. Hegedus, C. Laborde, C. Brady, S. Dalton, H. Siller et al., Uses of Technology in Upper Secondary Mathematics Education, 2017.

M. Siller, J. Tabach, &. L. Trgalova, and . Moreno-armella, Uses of Technology in Upper Secondary Mathematics Education, pp.1-36
URL : https://hal.archives-ouvertes.fr/hal-02500638

S. Hennessy, K. Ruthven, and S. Brindley, Teacher perspectives on integrating ICT into subject teaching commitment constraints caution and change, Journal of Curriculum Studies, vol.37, issue.2, pp.155-192, 2005.

D. Hilbert and S. Cohn-vossen, Anschauliche Geometrie (2. Aufl), 1996.

K. F. Hollebrands and H. S. Lee, Characterizing questions and their focus when pre-service teachers implement dynamic geometry tasks, The Journal of Mathematical Behavior, vol.43, pp.148-164, 2016.

,

K. Hollebrands and S. Okumu?, Secondary mathematics teachers' instrumental integration in technology-rich geometry classrooms, The Journal of Mathematical Behavior, 2017.

R. Hölzl, How Does "Dragging" Affect the Learning of Geometry, International Journal of Computers for Mathematical Learning, vol.1, pp.169-187, 1996.

R. Hölzl, Using Dynamic Geometry Software to Add Contrast to Geometric Situations -A Case Study, International Journal of Computers for Mathematical Learning, vol.6, pp.63-86, 2001.

K. R. Howey and P. L. Grossman, A Study in Contrast: Sources of Pedagogical Content Knowledge for Secondary English, Journal of Teacher Education, vol.40, issue.5, pp.24-31, 1989.

C. Hoyles and . Lagrange, Mathematics education and technology: Rethinking the terrain: the 17th ICMI study, 2010.

W. Hu, Research of Mathematical Inquiry Teaching Module Based on the Geometer's Sketchpad, 2005.

J. Hughes, The Role of Teacher Knowledge and Learning Experiences in Forming Technology-Integrated Pedagogy, Journal of Technology and Teacher Education, vol.13, issue.2, pp.277-302, 2005.

K. E. Irving, The Impact of Technology on the 21st Century Classroom, 2006.

&. P. Rhoton and . Shane, Teaching science in the 21st century, pp.3-20

J. Jenson and C. B. Rose, Finding space for technology: Pedagogical observations on the organization of computers in school environments, 2006.

, Canadian Journal of Learning and Technology / La Revue Canadienne de l'apprentissage et de La Technologie, p.32

X. Jiang and X. Wang, Review and prospect of research on foreign language teacher knowledge in China, Foreign Language World, vol.6, pp.33-41, 2016.

X. Kang, A Review on Contemporary Teacher Knowledge Studies in the West, Studies in Foreign Education, vol.39, issue.8, pp.84-91, 2012.

S. Kastberg and K. Leatham, Research On Graphing Calculators at the Secondary Level: Implications for Mathematics Teacher Education, 2005.

, Contemporary Issues in Technology and Teacher Education, vol.5, issue.1, pp.25-37

M. J. Koehler, P. Mishra, and K. Yahya, Tracing the development of teacher knowledge in a design seminar: Integrating content, pedagogy and technology, 2007.

, Computers & Education, vol.49, issue.3, pp.740-762

,

U. Kortenkamp, A. Blessing, C. Dohrmann, Y. Kreis, P. Libbrecht et al., Interoperable Interactive Geometry for Europe-First Technological and Educational Results and Future Challenges of The Intergeo Project, Proceeding of CERME 6-Sixth Conference of European Research in Mathematics Education, pp.1150-1160, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00395637

I. Koyuncu, D. Akyuz, and E. Cakiroglu, Investigating plane geometry problem-solving strategies of prospective mathematics teachers in technology and paper-and-pencil environments, International Journal of Science and Mathematics Education, vol.13, issue.4, pp.837-862, 2015.

C. Kynigos, Designing Constructionist New Mediations for Creative Mathematical Thinking? Constructivist Foundations, vol.10, pp.305-313, 2015.

C. Laborde, Integration of Technology in the Design of Geometry Tasks with Cabri-Geometry, International Journal of Computers for Mathematical Learning, vol.6, issue.3, pp.283-317, 2001.

C. Laborde and J. Laborde, The development of a dynamical geometry environment, Research on Technology and the Learning and Teaching of Mathematics, vol.2, pp.31-52, 2008.

C. Laborde and J. Laborde, Interactivity in dynamic mathematics environments: What does that mean? Integration of Technology into Mathematics Education: Past, Present and Future Proceedings of the Sixteenth Asian Technology Conference in MathematicsTCM. the Sixteenth Asian Technology Conference in Mathematics(ATCM), 2011.

J. B. Lagrange, M. Artigue, C. Laborde, and L. Trouche, A meta study on IC technologies in education. Towards a multidimensional framework to tackle their integration, PME CONFERENCE, vol.1, pp.1-111, 2001.

. Lagrange and . Pdf,

J. Lagrange, M. Artigue, C. Laborde, and L. Trouche, Technology and Mathematics Education: A Multidimensional Study of the Evolution of Research and Innovation, Second International Handbook of Mathematics Education, pp.237-269, 2003.
URL : https://hal.archives-ouvertes.fr/hal-01539521

,

M. Lampert, When the problem is not the question and the solution is not the answer: Mathematical knowing and teaching, American Educational Research Journal, vol.27, issue.1, pp.29-63, 1990.

K. R. Leatham, Preservice Secondary Mathematics Teachers' Beliefs about Teaching with Technology, 2002.

K. R. Leatham, Pre-service secondary mathematics teachers' beliefs about the nature of technology in the classroom, Canadian Journal of Science, Mathematics and Technology Education, vol.7, issue.2-3, pp.183-207, 2007.

,

R. Leikin and D. Grossman, Teachers modify geometry problems: From proof to investigation, Educational Studies in Mathematics, vol.82, issue.3, pp.515-531, 2013.

,

G. Leinhardt, Capturing Craft Knowledge in Teaching, Educational Researcher, vol.19, issue.2, pp.18-25, 1990.

A. Leung, Dynamic Geometry and The Theory of Variation, Proceedings of the 27th PME International Conference, vol.3, pp.197-204, 2003.

C. Li and X. Shen, The Review and Tendency of Teachers'Knowledge Study, Contemporary Teacher Education, vol.4, issue.3, pp.5-10, 2011.

J. Li, L. Feng, and Y. Yuan, Analysis and consideration of TPACK research in China, E-Education Research, vol.36, issue.11, pp.104-110, 2015.

S. Li and J. Chen, Relation Inquiry of Tertiary EFL Teachers' Knowledge and Their Teaching Autonomy. Foreign Languages and Their Teaching, vol.5, pp.88-96, 2016.

H. Liu, Integration of Information Technology and Mathematics Curriculum-Geometry Sketchpad-What Can Geometry Sketchpad Do for High School Mathematics Teaching, vol.9, pp.36-38, 2009.

J. Lonchamp, An instrumental perspective on CSCL systems, International Journal of Computer, vol.7, issue.2, pp.211-237, 2012.

,

F. Machlup, Knowledge: Its Creation, Distribution and Economic Significance, vol.I, 1980.

K. Mackrell, M. Maschietto, and S. Soury-lavergne, The interaction between task design and technology design in creating tasks with Cabri Elem, C, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00988731

. Margolinas, ICMI Study 22 Task Design in Mathematics Education, p.1
URL : https://hal.archives-ouvertes.fr/hal-00834054

J. L. Maréchal and A. Mercier, L'intervention et le devenir des connaissances antérieures des élèves dans la dynamique des apprentissages scolaires, p.90, 2006.

J. Margerum-leys and R. W. Marx, Teacher Knowledge of Educational Technology: A Study of Student Teacher/Mentor Teacher Paris, The Annual Meeting of the American Educational Research Association, 2000.

M. A. Mariotti, Introduction to proof: The mediation of a dynamic software environment, Educational Studies in Mathematics, vol.44, issue.1, pp.25-53, 2000.

R. Marrades and Á. Gutiérrez, Proofs produced by secondary school students learning geometry in a dynamic computer environment, Educational Studies in Mathematics, vol.44, issue.1-2, pp.87-125, 2000.

S. B. Merriam, Qualitative research: A guide to design and implementation, 2009.

, Ministry of Education of the People's Republic of China, 2011.

T. Miyakawa and C. Winsløw, Developing mathematics teacher knowledge: The paradidactic infrastructure of "open lesson, Journal of Mathematics Teacher Education, vol.16, issue.3, pp.185-209, 2013.

,

J. Monaghan, Teachers' activities in technology-based mathematics lessons, International Journal of Computers for Mathematical Learning, vol.9, issue.3, pp.327-357, 2004.

L. Mou, The Geometer's Sketchpad Optimization Case Study of The Junior High School Mathematics Teaching, 2012.

, The Final Report of the National Mathematics Advisory Panel, 2008.

M. L. Niess, R. N. Ronau, K. G. Shafer, S. O. Driskell, S. R. Harper et al., , 2009.

, Mathematics Teacher TPACK Standards and Development Model

, Contemporary Issues in Technology and Teacher Education, vol.9, issue.1, pp.4-24

M. L. Niess, Preparing teachers to teach science and mathematics with technology: Developing a technology pedagogical content knowledge. Teaching and Teacher Education, vol.21, pp.509-523, 2005.

,

P. Nilsson and A. Vikström, Making PCK Explicit-Capturing Science Teachers' Pedagogical Content Knowledge (PCK) in the Science Classroom, International Journal of Science Education, vol.37, issue.17, pp.2836-2857, 2015.

,

S. Norton, Prior Study of Mathematics as a Predictor of Pre-service Teachers' Success on Tests of Mathematics and Pedagogical Content Knowledge, 2012.

, Mathematics Teacher Education and Development, vol.14, issue.1, pp.2-26

F. Olivero, The proving process within a dynamic geometry environment, 2002.
URL : https://hal.archives-ouvertes.fr/hal-00190412

, Graduate School of Education

D. Özen and N. Y. Köse, Investigating Pre-service Mathematics Teachers' Geometric Problem Solving Process in Dynamic Geometry Environment, 2013.

, Turkish Online Journal of Qualitative Inquiry, vol.4, issue.3, pp.61-74

D. Palak and R. T. Walls, Teachers' Beliefs and Technology Practices: A Mixed-methods Approach, Journal of Research on Technology in Education, vol.41, issue.4, pp.417-441, 2009.

R. D. Pea, Cognitive Technologies for Mathematics Education, Cognitive science and mathematics education, pp.89-122, 1987.
URL : https://hal.archives-ouvertes.fr/hal-00190547

W. Peng and X. Zhu, A review of different approaches abroad on the knowledge of foreign language teachers. Foreign Language Education in China, vol.2, pp.28-36, 2009.

B. Pepin, Enhancing mathematics/STEM education: A 'resourceful' approach (Enhancing Mathematics/STEM Education: A 'Resourceful' Approach), 2015.

J. P. Ponte, H. Oliveira, and J. M. Varandas, Development of Pre-Service Mathematics Teachers' Professional Knowledge and Identity in Working with Information and Communication Technology, Journal of Mathematics Teacher Education, vol.5, pp.93-115, 2002.

P. Rabardel, Les hommes & les technologies: Approche cognitive des instruments contemporains, 1995.
URL : https://hal.archives-ouvertes.fr/hal-01017462

P. Rabardel, Qu'est-ce qu'un instrument ? Les dossiers de l'Ingénierie éducative, vol.19, pp.61-65, 1995.

, Research Group of the Core Contents and the Teaching in Primary and Secondary Schools, Mathematics?Information Technology and Mathematics Teaching. Curriculum. Teaching Material and Method, vol.32, issue.12, pp.62-66, 2012.

Q. Ruan and Y. Yang, Development of Technological Pedagogical and Content Knowledge: From TPACK to TSACK to TMACK. Distance Education in China, vol.11, pp.20-26, 2014.

K. Ruthven, Expanding Current Practice in Using Dynamic Geometry to Teach about Angle Properties, vol.21, pp.26-30, 2005.

K. Ruthven, S. Hennessy, and R. Deaney, Constructions of dynamic geometry: A study of the interpretative flexibility of educational software in classroom practice, Computers & Education, vol.51, issue.1, pp.297-317, 2008.

,

H. Sabra, Contribution à l'étude du travail documentaire des enseignants de mathématiques: Les incidents comme révélateurs des rapports entre documentations individuelle et communautaire, 2011.

I. Lyon,

D. A. Schön, The Reflective Practitioner: How Professionals Think In Action, 1984.

D. A. Schön, Educating the Reflective Practitioner, 1987.

G. Shao and M. Zhang, Teachers' Professional Development in the Perspective of Personal Knowledge, Journal of NingBo University (Education Edition), vol.30, issue.1, pp.75-79, 2008.

L. Shulman, Knowledge and Teaching: Foundations of the New Reform, Harvard Educational Review, vol.57, issue.1, pp.1-23, 1987.

,

M. P. Sinclair, Some implications of the results of a case study for the design of pre-constructed, dynamic geometry sketches and accompanying materials, Educational Studies in Mathematics, vol.52, pp.289-317, 2003.

N. Sinclair, Some implications of the results of a case study for the design of pre-constructed, dynamic geometry sketches and accompanying materials, Educational Studies in Mathematics, vol.52, pp.289-317, 2003.

N. Sinclair, M. G. Bartolini-bussi, M. De-villiers, K. Jones, U. Kortenkamp et al., Recent research on geometry education: An ICME-13 survey team report. ZDM, vol.48, pp.691-719, 2016.

,

S. Soury-lavergne, Duos d'artefacts tangibles et numériques et objets connectés pour apprendre et faire apprendre les mathématiques, 2017.

M. K. Stein, B. W. Grover, and M. Henningsen, Building student capacity for mathematical thinking and reasoning: An analysis of mathematical tasks used in reform classrooms, American Educational Research Journal, vol.33, issue.2, pp.455-488, 1996.

D. Stoilescu, Studying Challenges in Integrating Technology in Secondary Mathematics with Technological Pedagogical and Content Knowledge (TPACK), Technology and Education, pp.59-66, 2014.

R. Straesser, Cabri-Geometre: Does dynamic geometry software (DGS) change geometry and its teaching and learning?, International Journal of Computers for Mathematical Learning, vol.6, issue.3, pp.319-333, 2001.

K. Subramaniam, Prospective secondary mathematics teachers' pedagogical knowledge for teaching the estimation of length measurements, Journal of Mathematics Teacher Education, vol.17, issue.2, pp.177-198, 2014.

,

M. Tabach, A Mathematics Teacher's Practice in a Technological Environment: A Case Study Analysis Using Two Complementary Theories. Technology, Knowledge and Learning, vol.16, pp.247-265, 2011.

,

M. Tabach, Developing a general framework for instrumental orchestration, Conference on European Research on Mathematics Education, CERME8. Jana Trgalova and Hans-Georg Weigand, 2013.

. Metu and . Edu, Tr/Wgpapers/Wg15_papers. Html

D. Tall, Using the computer as an environment for building and testing mathematical concepts: A Tribute to Richard Skemp, Honour of Richard Skemp, pp.21-36, 1986.

M. H. Thames and D. L. Ball, What math knowledge does teaching require? Teaching Children Mathematics, vol.17, pp.220-229, 2010.

J. Törnroos, Mathematics textbooks, opportunity to learn and student achievement, Studies in Educational Evaluation, vol.31, issue.4, pp.315-327, 2005.

,

J. Trgalová and A. P. Jahn, Quality issue in the design and use of resources by mathematics teachers, ZDM, vol.45, issue.7, pp.973-986, 2013.

J. Trgalova, A. P. Jahn, and S. Soury-lavergne, Quality process for dynamic geometry resources: The Intergeo project, Proceedings of CERME, p.6, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00948789

J. Trgalova, S. Soury-lavergne, and A. P. Jahn, Quality assessment process for dynamic geometry resources in Intergeo project, ZDM, vol.43, issue.3, pp.337-351, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00861801

,

L. Trouche, Construction et conduite des instruments dans les apprentissages mathématiques: Nécessité des orchestrations, vol.54, 2003.

L. Trouche, Managing the complexity of human/machine interactions in computerized learning environments: Guiding students' command process through instrumental orchestrations, International Journal of Computers for Mathematical Learning, vol.9, issue.3, pp.281-307, 2004.

P. Turner and J. Chauvot, Teaching with Technology: Two Preservice Teachers' Beliefs, Proceedings of the seventeenth annual meeting of the North American Chapter of the International Group for the Psychology of Mathematics Education, pp.115-121, 1995.

G. Vergnaud, Towards a Cognitive Theory of Practice, 1998.

. Kilpatrick, Mathematics education as a research domain: A search for identity, pp.227-241

G. Vergnaud, Au fond de l'action, la conceptualisation, Savoirs théoriques et savoirs d'action, p.275, 2011.

A. Voltolini, Un duo d'artefacts virtuel et matériel pour apprendre à construire un triangle à la règle et au compas, vol.94, pp.25-46, 2014.

B. Wang, The Current Situation and Development Trend of Technological Pedagogical Content Knowledge (TPACK), vol.20, pp.61-70, 2015.

J. V. Wertsch, Mind as action, 1998.
URL : https://hal.archives-ouvertes.fr/hal-00696266

L. C. Yamagata-lynch, How a technology professional development program fits into teachers' work life. Teaching and Teacher Education, vol.19, pp.591-607, 2003.

, , pp.56-64

Y. Yeh, T. Lin, Y. Hsu, H. Wu, and F. Hwang, Science Teachers' Proficiency Levels and Patterns of TPACK in a Practical Context, Journal of Science Education and Technology, vol.24, issue.1, pp.78-90, 2015.

,

Y. Zhan, An empirical study on improving preservice teachers' TPACK, 2011.

G. Zhang, The Features and Development of Teacher's Knowledge from the Perspective of Student's Key Competency, Curriculum. Teaching Material and Method, vol.38, issue.3, pp.64-69, 2018.

Y. Zhang, Research on TPACK for primary school mathematics teachers, 2011.

S. Zhao, W. Du, and X. Lu, The Practice and Exploration of Geometer's Sketchpad in Junior Middle School Mathematics Teaching, China Educational Technology, vol.20, issue.3, pp.104-107, 2012.

B. Zou and X. Chen, Tracing to the Source of the Concept of Knowledge for Teachers, Curriculum. Teaching Material and Method, vol.24, issue.6, pp.85-89, 2005.