ED13D-3475:
Creating a 'Born Digital' Introductory Online Geology Course with a Community of Inquiry that Supports Discussion of Societal Challenges

Monday, 15 December 2014
Matthew A d'Alessio, California State University Northridge, Northridge, CA, United States and Joshua J Schwartz, CSU Northridge-Geological Sci, Northridge, CA, United States
Abstract:
With earth science relevant to so many societal challenges, we created an introductory geology course as a forum for students to explore the interplay between geoscience and society. With new media and digital tools enabling such rich collaboration, we designed the course as a fully online lecture and laboratory experience that meets the natural science general education requirements of our university. We hook students by using popular Hollywood blockbusters paired with documentary films that address related science content. Student ask questions using an online question ranking tool (Google Moderator) to guide the direction of further content delivery using the slide sharing/collaboration tool 'VoiceThread.' It allows instructors to post slides, add video narration, and invite students to comment or answer specific questions using video, voice, or text. Students report that VoiceThread makes an asynchronous class feel like a face-to-face experience. Student also collect data using online tools and pool their data in Google Spreadsheets. They discuss their collective findings in VoiceThread. With these tools in place, each content unit culminates with a challenge scenario. Students work in teams to come to a consensus about a real-world decision that requires them to apply their geologic knowledge. Examples include whether or not to evacuate a town in light of volcanic activity, which house to purchase in an earthquake prone area, which industry was polluting local groundwater, and whether or not to sell mineral rights for hydraulic fracturing. While many of these activities are widely utilized, our approach using them in an integrated online lecture/lab environment is unique. A survey of student attitudes towards the course revealed that students felt a stronger personal connection to the course instructor and one another than typical face-to-face GE classes, including those from our own department. Students' self-report of how much they learned was strongly correlated to their perceived sense of community. We attribute the high course grades and low failure rates (30% A's with only 13% D/F/W) to this sense of community and the socially relevant content it enabled students to engage, as the scores were much higher than more traditional face-to-face courses taught by the same instructors.