Blending projects serving public education into teacher training

About 10 years ago informatics teacher training did not seem to be too productive. Even though many students graduated, most of them chose well paid jobs as IT specialists rather than underpaid teacher positions in Hungary. What is then the reason for striving to provide the most up-to-date technology and methodology for future teachers who will never be able to transfer their gained knowledge into public education? The only possible solution seemed to be to convert to e-learning. The significance of TeaM elearning activities at ELTE University is mainly that they are interconnected and add up from course project works, undergraduate diploma works, Ph.D. dissertations of students, as well as all local and international projects that TeaM Lab participates in. Thus a dynamic development is under continuous progress which is a win-win relationship between all participants, teacher training and projects.Education for the 21 st century - impact of ICT and Digital Resources ConferenceRed de Universidades con Carreras en Informática (RedUNCI

The limits and possibilities of ICT in education

I will begin this article by clarifying the concept of Educational Technology and its related terms. I will then go on to analyse the more conclusive results of research in this field in order to describe the projects in which I have been involved, where technology was used to produce innovation. This article does not mention any cognitive or educational “revolutionary experience”, since this would surpass the limits of what technology is capable of accomplishing. Part of the education of the new generations has to be conservative, i.e., the experience and knowledge constructed by earlier generations has to be passed down. Disciplinary knowledge is an exemplary condensation of human effort and talent. How can technology support the transmission and acquisition of such knowledge? Besides being capable of using technology, should the new generations not also have a rational and educated discourse on the subject? Is this not the role of the school also? These are some of the main issues I wish to address

An approach for the evaluation of rural governance in Cameroon: are community forests really forests for the communities?

The aim of this paper is to evaluate the contribution of the traditional exploitation of timber, in a community framework, to the respect of governance principles in actions for the fight against poverty in some rural communities in Cameroon. In 1990, the government of Cameroon adopted laws on the freedom of association that authorised teaming up for the search of possibilities for a better economic welfare of populations. It is in line with this that in 1994, a new forest law which authorises willing communities to organise themselves and request the government to grant them a portion of the national forest of the public domain to be managed by them and for their personal interest. Also, and with the help of the international community, Cameroon elaborated in 1998 its first poverty reduction strategy paper that encouraged amongst others, community actions in the search of solutions to the economic crisis that stroke the country. Through the application of a logit model to the responses collected through a survey carried out on a sample of 200 individuals of the East region of Cameroon, it was noticed that timber exploitation in a community framework does not necessarily lead to the strengthening of the links of belonging to a common community, and to the equitable redistribution of revenues from the exploitation of the community forest.Community forests, gender, equity, governance, fight against poverty, participation

Beyond jam sandwiches and cups of tea: An exploration of primary pupils' algorithm‐evaluation strategies

The long-standing debate into the potential benefit of developing mathematical thinking skills through learning to program has been reignited with the widespread introduction of programming in schools across many countries, including England where it is a statutory requirement for all pupils to be taught programming from five years old. Algorithm is introduced early in the English computing curriculum, yet, there is limited knowledge of how young pupils view this concept. This paper explores pupils’ (aged 10-11) understandings of algorithm following their engagement with one year of ScratchMaths (SM), a curriculum designed to develop computational and mathematical thinking skills through learning to program. 181 pupils from six schools undertook a set of written tasks to assess their interpretations and evaluations of different algorithms that solve the same problem, with a subset of these pupils subsequently interviewed to probe their understandings in greater depth. We discuss the different approaches identified, the evaluation criteria they used and the aspects of the concept that pupils found intuitive or challenging, such as simplification and abstraction. The paper ends with some reflections on the implications of the research, concluding with a set of recommendations for pedagogy in developing primary pupils’ algorithmic thinking

The technological mediation of mathematics and its learning

This paper examines the extent to which mathematical knowledge, and its related pedagogy, is inextricably linked to the tools – physical, virtual, cultural – in which it is expressed. Our goal is to focus on a few exemplars of computational tools, and to describe with some illustrative examples, how mathematical meanings are shaped by their use. We begin with an appraisal of the role of digital technologies, and our rationale for focusing on them. We present four categories of digital tool-use that distinguish their differing potential to shape mathematical cognition. The four categories are: i. dynamic and graphical tools, ii. tools that outsource processing power, iii. new representational infrastructures, and iv. the implications of highbandwidth connectivity on the nature of mathematics activity. In conclusion, we draw out the implications of this analysis for mathematical epistemology and the mathematical meanings students develop. We also underline the central importance of design, both of the tools themselves and the activities in which they are embedded

Didactics of ICT in secondary education: Conceptual issues and practical perspectives

While there is a huge research literature on the field of ICT (Information and Communication Technology) as a tool in teaching and learning, there is much less research on the area of ICT as a subject or similar designations such as school informatics. As a result, there is a lack of theoretical grounding of the didactics of ICT and associated teaching and learning processes. One of the main reasons for the lack of theoretical underpinnings of the didactics of ICT is that there have been in the past and there persist even now strong disagreements and confusion about the nature of ICT as a school subject. While the content of the subject has been clearly defined in the school curriculum, the didactics of ICT is still unclear. This paper suggests ways forward in formulating a framework for conceptualizing the didactics of ICT. The framework draws on research in learning paradigms, epistemology, general didactics, conceptual, and curricular issues of ICT. The article also reports on implementations and evaluations of the framework that were carried out by trainee teachers in secondary schools

Introducing Computational Thinking in K-12 Education: Historical, Epistemological, Pedagogical, Cognitive, and Affective Aspects

Introduction of scientific and cultural aspects of Computer Science (CS) (called "Computational Thinking" - CT) in K-12 education is fundamental. We focus on three crucial areas. 1. Historical, philosophical, and pedagogical aspects. What are the big ideas of CS we must teach? What are the historical and pedagogical contexts in which CT emerged, and why are relevant? What is the relationship between learning theories (e.g., constructivism) and teaching approaches (e.g., plugged and unplugged)? 2. Cognitive aspects. What is the sentiment of generalist teachers not trained to teach CS? What misconceptions do they hold about concepts like CT and "coding"? 3. Affective and motivational aspects. What is the impact of personal beliefs about intelligence (mindset) and about CS ability? What the role of teaching approaches? This research has been conducted both through historical and philosophical argumentation, and through quantitative and qualitative studies (both on nationwide samples and small significant ones), in particular through the lens of (often exaggerated) claims about transfer from CS to other skills. Four important claims are substantiated. 1. CS should be introduced in K-12 as a tool to understand and act in our digital world, and to use the power of computation for meaningful learning. CT is the conceptual sediment of that learning. We designed a curriculum proposal in this direction. 2. The expressions CT (useful to distantiate from digital literacy) and "coding" can cause misconceptions among teachers, who focus mainly on transfer to general thinking skills. Both disciplinary and pedagogical teacher training is hence needed. 3. Some plugged and unplugged teaching tools have intrinsic constructivist characteristics that can facilitate CS learning, as shown with proposed activities. 4. Growth mindset is not automatically fostered by CS, while not studying CS can foster fixed beliefs. Growth mindset can be fostered by creative computing, leveraging on its constructivist aspects