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020			_a9783540482277 _9978-3-540-48227-7
024	7		_a10.1007/11915355 _2doi
050		4	_aQA75.5-76.95
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072		7	_aCOM014000 _2bisacsh
072		7	_aUYA _2thema
082	0	4	_a004.0151 _223
245	1	0	_aInformatics Education - The Bridge between Using and Understanding Computers _h[electronic resource] : _bInternational Conference on Informatics in Secondary Schools - Evolution and Perspectives, ISSEP 2006, Vilnius, Lithuania, November 7-11, 2006, Proceedings / _cedited by Roland Mittermeir.
250			_a1st ed. 2006.
264		1	_aBerlin, Heidelberg : _bSpringer Berlin Heidelberg : _bImprint: Springer, _c2006.
300			_aXVIII, 322 p. _bonline resource.
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
347			_atext file _bPDF _2rda
490	1		_aTheoretical Computer Science and General Issues, _x2512-2029 ; _v4226
505	0		_aThe Spectrum of Informatics Education -- Evolution of the Cultural-Based Paradigm for Informatics Education in Secondary Schools – Two Decades of Lithuanian Experience -- Discovering Informatics Fundamentals Through Interactive Interfaces for Learning -- Contributing to General Education by Teaching Informatics -- Bridging the Gap Between School Computing and the “Real World” -- Programming Versus Application -- Databases as a Tool of General Education -- Handling the Diversity of Learners’ Interests by Putting Informatics Content in Various Contexts -- Computer Science in English High Schools: We Lost the S, Now the C Is Going -- Teaching Computing in Secondary Schools in a Dynamic World: Challenges and Directions -- Teaching Algorithmics and Programming -- Functions, Objects and States: Teaching Informatics in Secondary Schools -- From Intuition to Programme -- On Novices’ Local Views of Algorithmic Characteristics -- Learning Computer Programming with Autonomous Robots -- A Master Class Software Engineering for Secondary Education -- Algorithmic Thinking: The Key for Understanding Computer Science -- Issues of Selecting a Programming Environment for a Programming Curriculum in General Education -- Object-Oriented Programming at Upper Secondary School for Advanced Students -- The Role of ICT-Education -- Informatics Education at Austria’s Lower Secondary Schools Between Autonomy and Standards -- Development of an Integrated Informatics Curriculum for K-12 in Korea -- Contribution of Informatics Education to Mathematics Education in Schools -- Exams and Competitions -- Evolution of Informatics Maturity Exams and Challenge for Learning Programming -- Objective Scoring for Computing Competition Tasks -- Teacher Education and School Development -- Modelling and Evaluating ICT Coursesfor Pre-service Teachers: What Works and How It Works? -- Sustaining Local Identity, Control and Ownership While Integrating Technology into School Learning -- eLearning -- Designing Digital Technologies for Layered Learning -- ePortfolios in Australian Schools: Supporting Learners’ Self-esteem, Multiliteracies and Reflection on Learning -- Metacognition in Web-Based Learning Activities -- Development of Modern e-Learning Services for Lithuanian Distance Education Network LieDM -- Localization and Internationalization of Web-Based Learning Environment.
520			_aAlthough the school system is subject to specific national regulations, didactical issues warrant discussion on an international level. This applies specifically to informatics didactics. In contrast to most other scientific disciplines, informatics undergoes substantial technical and scientific changes and shifts of paradigms even at the basic level taught in secondary school. Moreover, informatics education is under more stringent observation from parents, potential employers, and policy makers than other disciplines. It is considered to be a modern discipline. Hence, being well-educated in informatics seemingly ensures good job perspectives. Further, policy makers pay attention to informatics education, hoping that a young population well-educated in this modern technology will contribute to the future wealth of the nation. But are such high aspirations justified? What should school aim at in order to live up to such expectations? ISSEP 2005, the 1st International Conference on Informatics in Secondary Schools – Evolution and Perspectives already showed that informatics teachers have to bridge a wide gap [1, 2]. On one hand, they have to show the inherent properties that informatics (or computer science) can contribute to general education. On the other hand, they are to make pupils computer literate. Under the constraint of limited time available for instruction, these different educational aims come into conflict. Computer-supported teaching or eLearning is to be considered distinct from informatics education. However, in many countries, informatics teachers still have to support the eTeaching activities of their colleagues.
650		0	_aComputer science.
650		0	_aEducation _xData processing.
650		0	_aComputers and civilization.
650		0	_aMicrocomputers.
650	1	4	_aTheory of Computation.
650	2	4	_aComputers and Education.
650	2	4	_aComputers and Society.
650	2	4	_aPersonal Computing.
700	1		_aMittermeir, Roland. _eeditor. _4edt _4http://id.loc.gov/vocabulary/relators/edt
710	2		_aSpringerLink (Online service)
773	0		_tSpringer Nature eBook
776	0	8	_iPrinted edition: _z9783540482185
776	0	8	_iPrinted edition: _z9783540832188
830		0	_aTheoretical Computer Science and General Issues, _x2512-2029 ; _v4226
856	4	0	_uhttps://doi.org/10.1007/11915355
912			_aZDB-2-SCS
912			_aZDB-2-SXCS
912			_aZDB-2-LNC
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