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The Lecture-Tutorials for Introductory Astronomy have been designed to help introductory astronomy instructors actively engage their students in developing their conceptual understandings and reasoning abilities across a wide range of astrophysical topics. The development of the Lecture-Tutorials has been informed by nearly two-decades of research into common learning difficulties students experience when studying astronomy. The results from multiple studies provide evidence that Lecture-Tutorials can help students achieve learning gains well beyond what is typically achieved by lecture alone. Achieving such learning gains requires that an instructor understand how to effectively incorporate the Lecture-Tutorials into his or her course. This chapter provides details into the best practices for the effective integration and implementation of the Lecture-Tutorials - practices that we have developed through years of reflective practice from working with thousands of Astro 101 students and instructors. We also present a case study of how Lecture-Tutorials were used to promote the active engagement of learners in an Astro 101 mega-course enrolling over 700 students. This case study illustrates how the thoughtful implementation of Lecture-Tutorials can result in dramatic learning gains, even in the most daunting instructional environments.
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In the Fall of 2013, Georgia Tech offered a flipped calculus-based introductory mechanics class as an alternative to the traditional large-enrollment lecture class. This class flipped instruction by introducing new material outside of the classroom through pre-recorded, lecture videos. Video lectures constituted students initial introduction to course material. We analyze how students engaged with online lecture videos via clickstream data, consisting of time-stamped interactions (plays, pauses, seeks, etc.) with the online video player. Analysis of these events has shown that students may be focusing on elements of the video that facilitate a correct solution.
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The detection and study of extrasolar planets is an exciting and thriving field in modern astrophysics, and an increasingly popular topic in introductory astronomy courses. One detection method relies on searching for stars whose light has been gravitationally microlensed by an extrasolar planet. In order to facilitate instructors abilities to bring this interesting mix of general relativity and extrasolar planet detection into the introductory astronomy classroom, we have developed a new Lecture-Tutorial, Detecting Exoplanets with Gravitational Microlensing. In this paper, we describe how this new Lecture-Tutorials representations of astrophysical phenomena, which we selected and created based on theoretically motivated considerations of their pedagogical affordances, are used to help introductory astronomy students develop more expert-like reasoning abilities.
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