(6) Selecting: while thinking and discussing the elaboration of the model, they have to distinguish relevant from irrelevant, or important from less important, elements to answer the focus question. (7a) Discriminating: identify the relative importance of relevant elements to elaborate a hierarchical structure and select the core concept. (7b) Structuring: determine how elements connect to each other to construct the core concept and to answer the focus question. (3c) Implementing:

since they draw a map to answer a particular question, they have to apply the procedure to an unfamiliar task. (8a) Integrating: organize and link different elements in a hierarchical structure. (8b) Outlining: use different colors, type or size of character to outline a particular point. (9) Hypothesizing: organizing and connecting elements and concepts in a first draft of sCM, connecting concepts of different domains on the sCM or from another MK-2206 order NVP-BKM120 nmr field of knowledge to improve the considered knowledge (cross-links). (10) Judge the relevance of the terminology used. (11) Judgments based on criteria/checking: precisely name the links between elements and carefully consider the established

links to answer the focus question. (12) Judging: while doing steps 10/11, sCM designers detect inconsistencies in the knowledge structure. Steps 9 to 12 correspond to high levels in the cognitive process dimension. Likewise, proposing an organization among different elements to answer a focus question is difficult to achieve and forces transfer in learning. (13) Hypothesizing/designing: after careful consideration, sCM designers must reorganize elements to better represent knowledge in an original

and new way to answer the focus question. This corresponds to high taxonomic level of procedural knowledge. Using the proposed matrix and helped by teachers, learners can develop metacognitive knowledge through the last following steps. (14a) Understand the contribution of sCM in metacognition development. (14b) Get aware of the cognitive demand of the different tasks exercised in sCM. (14c) Assess the relevance of the tool used to answer the focus question. (14d) Step back and be aware of the evolution of one׳s own representation and functioning. All these steps in elaborating sCM are depicted in Table 1. An example of sCM construction answering the focus question in chemistry: Calpain “What is the composition of matter?” is given as example (Fig. 1). The tasks exercised during its construction are presented in Table 2. In order to highlight the evolution in knowledge structure observed when using sCM matrix, a work proposed by a student teacher on photosynthesis is given (Fig. 2 and Fig. 3). The first CM draft (Fig. 2) was performed by the student teacher aiming to document photosynthesis. One can observe the absence of hierarchy, some missing essential elements (like chloroplasts and green plant), repeated terms. In addition, connectors are not adequately defined.