You don’t have to wait until it rains to catch a sight of rainbow. You can create one any time as long as there is sunshine. Just use a garden…
…such as Energy2D, as–for the first time–engineering has been officially written into the US K-12 Science Education Standards. Once the Standards roll out, thousands of teachers will be looking for…
…wisdom of motion tracking based on RGB data requires complicated algorithms to process a large amount of video data, making it harder to implement a real-time application. The Kinect adds…
As we make our award-winning Molecular Workbench software more accessible and widely available, we’re documenting our story at the same time. Google’s grant to the Concord Consortium funds the conversion…
…Two major themes emerged: flexibility and student accountability. This confirmed what we knew about the classroom: teachers have limited time, a wide range of learners, a diversity of classes, and…
…Molecular Workbench. During that time I worked with the MW team to create simulation-based activities that give students a concrete handle for thinking about the atomic-level world. Using these activities,…
…reduced staff. AMSTEL developed extensive probeware for real-time data acquisition, as well as several generations of COACH, software for analyzing these data, modeling, control, video data capture and animations. This…
…my time was spent staffing Concord Consortium’s exhibit booth to disseminate our free software. Jeanne Hurtz and I spoke with hundreds of people who stopped by our booth to hear…
…collect real-time data via probes and sensors. These activities will form examples of next-generation—deeply digital—curricula. The initial development of the Molecular Workbench was funded by a series of grants from…
…it, as they provide powerful problem-solving tools—in addition to the hands-on tools—that can compensate for time, material, safety and environmental constraints. The Enhancing Engineering Education (EEE) project has developed two…