Course Design addresses elements of instructional design. For the purpose of this rubric, course design includes such elements as structure of the course, learning objectives, organization of content, and instructional strategies.
Interaction and Collaboration
Interaction denotes communication between and among learners and instructors, synchronously or asynchronously. Collaboration is a subset of interaction and refers specifically to those activities in which groups are working interdependently toward a shared result. This differs from group activities that can be completed by students working independently of one another and then combining the results, much as one would when assembling a jigsaw puzzle with parts of the puzzle worked out separately then assembled together. A learning community is defined here as the sense of belonging to a group, rather than each student perceiving himself/herself studying independently.
Assessment
Assessment focuses on instructional activities designed to measure progress toward learning outcomes, provide feedback to students and instructors, and/or enable grading or evaluation. This section addresses the quality and type of student assessments within the course.
Learner Support
Learner Support addresses the support resources made available to students taking the course. Such resources may be accessible within or external to the course environment. Learner support resources address a variety of student services.
On the surface, adopting technology to support teacher needs or student challenges isn’t terribly complex: define the problem you’re trying to solve, identify the right tools for the job, and implement the tools effectively and with fidelity.
Only 33 percent of parents surveyed by the Learning Assembly said their child’s school did an excellent job using technology to tailor instruction.
Understanding Purpose
Technology is just a tool, not a means in and of itself. Any school or teacher that sets out to use technology for its sake alone, and not in the service of personalizing learning or addressing specific needs, is on a mission to fail.
Insufficient Modeling of Best Practices
A survey from Samsung found that 37 percent of teachers say they would love to use technology but don’t know how, and 76 percent say they would like a professional development day dedicated to technology.
ideos that focus on scaling and modeling best practices (produced by places like the Teaching Channel and The Learning Accelerator) can help teachers and schools do this.
Bad First Impressions
Teachers face initiative fatigue: They are constantly being asked to implement new programs, integrate new technologies, and add on layers of responsibility. In one Wisconsin district, nearly half of teachers felt ongoing district initiatives were a “significant area of concern.”
Forward-thinking schools take the time to learn from the challenges of other schools, and recruit a coalition of the willing.
Real-World Usability Challenges
Relying on multiple devices (remote, clicker, iPad, computer mouse) to launch or navigate technology can be difficult. Additionally, teachers may start to use a tool, only to realize it is not flexible enough to meet their original needs, fit into the constraints of their particular school or classroom, or allow them to integrate their own content or supplemental resources.
The Right Data to Track Progress
Lack of useful data, problem definition, weak teacher buy-in, first impressions, and usability challenges all have the potential to torpedo smart technology products.
The Next 10 Years: Helping STEM Students Thrive series, on January 10th, from 12-1:30 PM ET. The topic will be learning spaces with the following guest speakers:
Jeanne L. Narum, Principal, Learning Spaces Collaboratory
Jeanne will discuss what she has learned about what works, why and how it works in achieving sustainable institutional transformation in the world of planning spaces for learning in the undergraduate setting.
Lisa Stephens, Sr. Strategist- SUNY Academic Innovation – University at Buffalo
Rebecca Rotundo, Instructional Technology Specialist, University at Buffalo
Lisa and Rebecca will share their experience in FLEXspace (Flexible Learning Environments eXchange) an open education repository project which has expanded to over 2,600+ users from 1,200+ educational institutions across 42 countries.
Xin Li, Associate University Librarian, Cornell
Xin will share information about the Library’s initiative to install a Portal on the Cornell campus in Sept. 2018, with the goal to engage faculty, students, and the community in live conversations with Portal users in different countries, cultures, or life circumstances, such as what others do for STEM education.
This collaboration between Cornell University and the University at Buffalo featuring the perspectives of national thought leaders and institutional representatives about expanding the participation of women in undergraduate STEM education at different scales.
This interactive, online series features a different topic per month. Each session kicks off with an introduction by our distinguished thought leaders followed by institutional representatives from Cornell University and the University at Buffalo who will share insights from their campuses. Participants may join the conversation, ask questions, share experiences, build networks and learn more about:
· Innovations that can expand female or underrepresented minority student participation and success in STEM undergraduate education.
· Effective evidence-based STEM teaching practices commonly adopted at research universities.
· Unique institutional and cultural challenges to achieving STEM diversity.
he assembled a team of men with a wide range of knowledge, including mathematicians, submarine specialists, and salvage men. Instead of asking them to consult with each other to come up with an answer, he asked each of them to offer his best guess about how likely each of the scenarios was. To keep things interesting, the guesses were in the form of wagers, with bottles of Chivas Regal as prizes.
Needless to say no one of these pieces of information could tell Craven where the Scorpion was. But Craven believed that if he put all the answers together, building a composite picture of how the Scorpion died, he’d end up with a pretty good idea of where it was.
Craven is hard to keep up with. His mind darts from why the Navy should make subs out of glass to the sad end of his long telephone friendship with the late Marlon Brando to the remarkable prodigiousness of his small experimental Hawaiian vineyard.
Craven’s system exploits the dramatic temperature difference between ocean water below 3,000 feet – perpetually just above freezing – and the much warmer water and air above it. That temperature gap can be harnessed to create a nearly unlimited supply of energy. Although the scientific concepts behind cold-water energy have been around for decades, Craven made them real when he founded the state-funded Natural Energy Laboratory of Hawaii in 1974 on Keahole Point, near Kona.
We gladly invite you to attend the International Conference “The Future of Education, Mass-Media and Communication” which will be held at Johns Hopkins University, just 20 miles away from Washington DC.
