Results from practice
Author(s)
Bibliographic Information
Results from practice
(ACS symposium series, 1228 . The flipped classroom ; v. 2)
American Chemical Society , Distributed in print by Oxford University Press, c2016
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Includes bibliographical references and indexes
Description and Table of Contents
Description
The "flipped classroom" has become the new buzzword not only among educators but also in the general public, with articles in USA Today, Washington Post, and The New York Times discussing this pedagogical approach. Simply stated, the flipped classroom is a high tech variation on a pedagogical method that has been around for generations. The time honored Socratic method aims to actively engage students with instructors asking them
questions, leading them down a path where they are encouraged to see the connections between ideas. Additionally, flipped classrooms resemble the Thayer method, which expects students to take responsibility for their own learning by studying material before it is covered in class.
Chemistry professors who teach in flipped classrooms embrace a variety of learning theories to guide their implementations. Most chemists who use active learning approaches in their classrooms value some aspect of constructivism theory, in which learners must begin their understanding of the concepts in their pre-class assignments. Later, students apply the concepts in class using active learning methods. For this book, the authors define the flipped classroom as one where students gain
exposure to course content before class and the face-to-face time involves active learning.
Experimenting with flipped classrooms, like any new pedagogical technique, can be overwhelming, particularly if there is little external impetus to instigate reforms. Significant course changes are undeniably hard and can require a substantial investment of time. However, studies increasingly show flipping to be worth the effort for students. The chapters in Volume 2 of this collection provide further data about how flipping influenced their students' learning.
Table of Contents
Preface
1. Direct Comparison of Flipping in the Large Lecture Environment
2. The Effectiveness of Course Flipping in General Chemistry - Does It Work?
3. Less Class Time, More Learning: The Evolution of a Hybrid General Chemistry Course for Science Majors
4. Partial Flipping To Support Learning in Lectures
5. Just-in-Time Teaching Organic Chemistry with iPad Tablets
6. Conversion of a Lecture Based Organic Chemistry Course Sequence to Fully Flipped Classes with Pertinent Observations from Other Flipped Chemistry Courses
7. Flipping General and Analytical Chemistry at a Primarily Undergraduate Institution
8. Biochemistry and the Liberal Arts: Content and Communication in a Flipped Classroom
Editors' Biographies
Indexes
Author Index
by "Nielsen BookData"