Another graph Jordan and Weller (2013b) plotted showed the average number of students active across weeks (Figure 7), starting with the initial enrolment figures.
At the end of week 1, there are about 55% of students still active from the initial registration point. Many of those who registered will not even have come into the course once, so it is misleading to say they have dropped out. If this 55% figure is taken as the actual enrolment statistic as our starting figure, then the average completion rate rises to around 23%. With open entry learners on an unsupported course, this figure might not be as catastrophic as the numbers often quoted. There is a flip side to redefining completion rates in this way, in that it drastically reduces the impressive enrolment figures used to justify MOOC investments.
What this example and the preceding two demonstrate is that there are beneficial, or at least significant, issues raised for formal education by MOOCs. This is one of the strengths of openness – it causes us to examine assumptions in standard practice, which can be improved or altered. How educators design, cost and assess the quality of all courses, not just open ones, becomes altered by digital, networked applications, but it is the addition of the catalyst of openness that really accelerates the changes and possibilities. It is this positive impact of MOOCs that I want to focus on before examining their possible downsides. The next section will examine how MOOCs could relate to higher education and perform a complementary function.
MOOCs as Complement to Formal Education
Much of the hype around MOOCs has positioned them as being in competition to formal education. While this adversarial framing may make good sense in terms of a media narrative, as we
