Inquiry-Based Learning for Science, Technology, Engineering, and Math (STEM) Programs: A Conceptual and Practical Resource for Educators Vol: 4


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Product Details
Format:
Hardback
ISBN:
9781784418502
Published:
20 Oct 2015
Publisher:
Emerald Group Publishing Limited
Dimensions:
360 pages - 152 x 229 x 23mm
Series:
Innovations in Higher Education Teaching and Learning
Inquiry-based learning (IBL) is a learner-centered active learning environment where deep learning is cultivated by a process of inquiry owned by the learner. It has roots in a constructivist educational philosophy and is oriented around three components: 1) exploration and discovery (e.g. problem-based learning, open meaning-making), 2) authentic investigations using contextualized learning (e.g. field studies, case studies), and 3) research-based approach (e.g. research-based learning, project-based learning). IBL begins with an authentic and contextualized problem scenario where learners identify their own issues and questions and the teacher serves as guide in the learning process. It encourages self-regulated learning because the responsibility is on learners to determine issues and research questions and the resources they need to address them. This way learning occurs across all learning domains. This volume covers many issues and concepts of how IBL can be applied to STEM programs. It serves as a conceptual and practical resource and guide for educators, offering practical examples of IBL in action and diverse strategies on how to implement IBL in different contexts.
Innovative Approaches in Teaching and Learning: An Introduction to Inquiry-Based Learning for STEM Programs. Inquiry-Based Learning in an Undergraduate Honours Program: Lessons from the Bachelor of Health Sciences Honours Program at McMaster University. Two Decades of Inquiry-Oriented Learning in First Year Undergraduate Physics Laboratories: An Australian Experience. Arnold Arons: Pioneer of Inquiry-Based Learning in Physics. MIT’s Introduction to Biological Engineering: A Longitudinal Study of a Freshman Inquiry-Based Class. Problem Based Learning Approaches to Teaching Chemistry. An Intentional and Facilitative Student-Centered Approach to Enhance Inquiry-Based Learning through Authentic, Hypothesis-Driven Research. IBL and Mathematics: The Necessity of Flexible Knowledge. Advantages of Science Education Outdoors through IBSE Methodology. Inquiry-Based Learning in Action: Reflections on an Interdisciplinary Master’s Program in the Health and Life Sciences. A Narrative-Based Bachelor of Science in Nursing Program: Experiences and Insights. Modeling Scientific Inquiry to Guide Students in the Practices of Science: The ED3U Teaching Model of Conceptual Change in Action. Utilising Context in Learning. Evaluating European Inquiry-Based Education Projects through the Lens of Evaluation Capacity Building. Inquiry-Based Learning in Mathematics. Enhancing Inquiry-Based Learning Environments with the Power of Problem-Based Learning to Teach 21st Century Learning and Skills. About the Authors. Author Index. Copyright page. Inquiry-Based Learning for Science, Technology, Engineering, and Math (STEM) Programs: A Conceptual and Practical Resource for Educators. List of Contributors. Innovations in Higher Education Teaching and Learning. Subject Index. Inquiry-Based Learning for Science, Technology, Engineering, and Math (STEM) Programs: A Conceptual and Practical Resource for Educators. Foreword. Series editor’s introduction.

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