{"id":1588,"date":"2012-10-24T02:16:33","date_gmt":"2012-10-24T06:16:33","guid":{"rendered":"https:\/\/mitcet.mit.edu:443\/?p=1588"},"modified":"2024-12-19T17:00:37","modified_gmt":"2024-12-19T22:00:37","slug":"mechanical-engineering-i2-002","status":"publish","type":"post","link":"https:\/\/mitcet.mit.edu\/2012\/10\/24\/mechanical-engineering-i2-002\/","title":{"rendered":"Mechanical Engineering i2.002"},"content":{"rendered":"
Teaching a core required class to students at any distance<\/div>\n

The opportunity:<\/h3>\n

The Mechanical Engineering undergraduate student is presented with an increasing number of valuable academic opportunities beyond the campus. While the department supports such activities, most required courses are only available on campus.<\/p>\n

In parallel, the flexible 2A curriculum, which allows students to pursue specific \u201ctracks\u201d of knowledge and create a customized degree, envisions increased modularization of the mechanical engineering curriculum.<\/p>\n

The combined goals of remote student participation and modularized course components sponsored an experiment in delivering a core mechanical engineering class to both residential and off-campus students.<\/p>\n

The experiment:<\/h3>\n

In Spring 2012, 2.002 was offered concurrently to both remote and residential MIT students. Ten percent of the class participated remotely\u2014from Spain, Puerto Rico and California\u2014and these students were held to the same academic standards as residential students. The experiment has just concluded and evaluation by the Teaching and Learning Laboratory is ongoing.<\/p>\n

To support the remote students, all lectures, recitations, labs and review sessions were recorded and posted for viewing on the same or next day. Each remote student was provided a scanner for sending in assignments and exams, and an online discussion forum provided a channel for student interaction.<\/p>\n

Areas of innovation:<\/h3>\n

Participating faculty agree that a core mechanical engineering course can indeed be taught successfully online. With the proper support, tools and materials, Mechanical Engineering can offer an entirely online course without any reduction in quality or standards.<\/p>\n

Course materials were modularized into an introductory core and four major components (plasticity, viscoelasticity, fracture & fatigue, and rubber). After completing the core module, students should be able to study the remaining components in any order.<\/p>\n

Online content played a key role. The accelerated availability of online lecture and lab videos, indexed by topic, enabled remote students to share a similar learning experience to residential students.<\/p>\n

Online discussion supported significant levels of class interaction (130 questions solicited 450 responses). It linked residential and remote students in one community, and served as the primary channel for remote students\u2019 questions.<\/p>\n

Sustainability considerations:<\/h3>\n

Two new roles\u2014beyond the traditional course staff\u2014proved essential to the successful delivery of a concurrent residential\/remote course:<\/p>\n