Effects Of Context Oriented Learning On Student Interest And Achievement In Chemistry Education
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Effects of Context-oriented Learning on Student Interest and Achievement in Chemistry Education
Der Chemieunterricht sieht sich nicht erst seit PISA mit dem Anspruch konfrontiert, einerseits die Lernenden von der Relevanz des Faches zu uberzeugen und andererseits zu gewahrleisten, dass sie genug vernetztes Konzeptwissen erwerben, um eine naturwissenschaftliche Berufslaufbahn wahlen zu konnen. An diesem Spannungsfeld setzt die vorgestellte Studie an: anhand eines experimentellen Designs wird der Erwerb von Wissen in lebensweltlichen im Gegensatz zu fachlichen Kontexten evaluiert. Funf Experimentierphasen dienen als Grundlage, um die Effizienz der jeweiligen Kontexte in Verbindung mit wiederholenden Vernetzungsmassnahmen zu untersuchen. Die gewahlten Messinstrumente ermoglichen hierbei eine detaillierte Beschreibung der Effekte der Interventionsmassnahmen beim kooperativen Arbeiten im Chemieunterricht. Especially since the weak results of German students in large-scale assessments like PISA, chemistry education has been challenged: It is supposed to bridge the gap between making it relevant to the learner and ensuring that learners acquire enough content knowledge to cope with university demands. The presented study emanates from this ambiguity by evaluating the acquisition of content knowledge in different contexts. By means of an experimental design, student learning gains in tasks with a real life problem situation are compared to a laboratory setting. A one-week intervention serves as a basis to assess the effects of such contexts in a collaborative and inquiry-based learning environment. The selected test instruments offer the possibility to shed light on differentiated effects of contexts with relation to learner prerequisites.
Affective Dimensions in Chemistry Education
This is a unique resource for those wishing to address the affective domain as they research and solve problems in chemistry education. Contributions by world-leading experts cover both fundamental considerations and practical case studies. This work fills a gap in the literature of chemistry education, which so far has focussed mainly on the cognitive domain. The affective domain refers to feelings-based constructs such as attitudes, values, beliefs, opinions, emotions, interests, motivation, and a degree of acceptance or rejection. It can affect students’ interest in science topics and their motivation to persevere in learning science concepts.
Teachers Creating Context-Based Learning Environments in Science
"Context-based science education has led to the transformation of science education in countries all over the world, with changes also visible in learning environments and how these are being shaped. These changes involve authentic problems on research and design, new types of interactions within communities of practice, new content areas and also new challenges for teachers in teaching, motivating, scaffolding and assessing their students, among other things.This book focuses on context-based science education and its resulting changes in the perspective of research on learning environments. It also focuses on the implications for the teachers and the professional development of their competencies and beliefs.The book consists of eleven chapters by experts in various themes surrounding learning environments research and science education, preceded by and concluded with a chapter with reflections on context-based learning environments in science by the editors of this book. The conclusion they draw is that professional development of science teachers may be the most important and the most difficult part of the process of teachers creating context-based learning environments in science, as is the focus in the title of this book."