Tag Archives: 5Es

Engaging learners on-line

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Filming at Quarry Bank Mill

Filming at Quarry Bank Mill

The Everyday Engineering Examples page of this blog continue to be very popular.  More than 70 engineering schools in the USA have signed up to use this approach to teaching engineering science as part of the ENGAGE project.  The lesson plans on that page assist instructors to deliver traditional lectures that are engaging and effective.  Now, we have transferred the approach to online delivery in a MOOC that was designed to support undergraduate learning as well as to increase public engagement and understanding of engineering science.

The MOOC entitled ‘Energy: Thermodynamics in Everyday Life‘ was completed by more than 960 learners from about 35 countries who ranged in age from 13 to 78 years old with a correspondingly wide range of qualifications in terms of both subject and level.  I believe that this is the first MOOC to use Everyday Engineering Examples within a framework of the 5E lesson plans and it seems to have been effective because the completion rate was 50% higher than the average for FutureLearn MOOCs.

We also included some experiments for MOOC learners to do at home in their kitchen.  Disappointingly only a quarter of learners performed the experiments but surprisingly almost half of all learners(46%) reported that the experiments contributed to their understanding of the topics.  This might be because results and photos from the experiments were posted on a media wall by learners.  There was also a vibrant discussion throughout the five-week course with a comment posted every 8 minutes (or more than 6,500 comments in total).

More than half the undergraduates (53%) who followed the MOOC did not continue to attend the traditional lectures and roughly the same percentage agreed or agreed strongly that the MOOC could replace the traditional lecture course with only 11% disagreeing.  So maybe the answer to my question about death knell for lectures [see my post ‘Death Knell for the lecture?‘ on October 7th, 2015] is that I can hear the bell tolling.

I gave a Pecha Kucha 20×20 on these developments at an International Symposium on Inclusive Engineering Education in London last month, which is available as a short video.

Writing backwards

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honey&mumfordschematicMy regular readers will know that I am a fan of the 5E instructional method and in particular combining it with Everyday Engineering Examples when teaching introductory engineering courses to undergraduate students. Elsewhere in this blog, there is a catalogue of lesson plans and examples originally published in a series of booklets produced during a couple of projects funded by the US National Science Foundation. Now, I have gone a step further and embedded this pedagogy in a Massive Open Online Course (MOOC) on Energy! Thermodynamics in Everyday Life. If you follow the MOOC, you’ll find some new worked examples that I explain while writing ‘backwards’ on a glass board. My film unit are very proud of the ‘backwards’ writing in these examples, which they tell me is an innovation in education filming-making. Our other major innovation is laboratory exercises that MOOC participants can perform in their kitchens. Two of these are based on everyday experiences for most participants: boiling water and waiting for a hot drink to cool down; the third is less everyday because it involves a plumber’s manometer. In each case, I am attempting to move people around Honey and Mumford’s learning cycle, which is illustrated schematically in the figure, i.e. having an experience, reviewing the experience, concluding from the experience and the planning the next steps. The intention is that students progress around the cycle in the taught component, then again in the experiments.

If you want to have a go at the one of experiments, then the instructions for the first one are available here. Alternatively you could sign up for the MOOC – its not too late!  But if you don’t want to follow the course then you can stil watch some excerpts on the University of Liverpool’s Stream website, including the backwards written examples.

Sources:

Atkin, J.M. and Karplus, R., 1962. Discovery of invention? Science Instructor, 29 (5), 45–47.

Honey P, Mumford A. The Manual of Learning Styles 3rd Ed. Peter Honey Publications Limited, Maidenhead, 1992.

Running away from tigers

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rsph graphicToday, the probability that you will have to run away from a tiger is very small, no matter where you live.  Tigers have lost 93% of their historical range that used to stretch from Turkey across Asia to Eastern China and southwards to Indonesia.  Tigers have no problem with the first law of thermodynamics – they instinctively know that if they take in more energy than they expend then the excess energy will be stored as fat and when they become overweight they won’t be able to catch you or whatever else they decided to chase for their next meal.

As a species we seem to have lost that understanding of energy balances.   Obesity is increasing in many parts of the world.  The situation is so serious in the UK, where more than two-thirds of the adult population are overweight or obese, that the Royal Society for Public Health has proposed that food should be labelled with the amount of exercise required to burn-off the calories it contains and they have suggested using the infographic in the thumbnail.  Of course, the Royal Society’s position paper does not mention explicitly thermodynamics (or tigers!) though it does effectively cite the first law by stating ‘the cause of obesity is excess energy consumption relative to energy expenditure‘.  By coincidence, this week I interviewed Professor Graham Kemp, in the Institute of Ageing and Chronic Disease in Liverpool, about energy flows through our bodies for a MOOC on Energy: Thermodynamics in Everyday Life.

If you wathermolectures posternt to listen to that interview or learn more about the thermodynamics underpinning the energy balances controlling our weight, climate change and your electricity charges, then you need to join the more than 4,500 people who have already enrolled on the MOOC that will run for five weeks from February 8th, 2016.  I will also be giving an accompanying series of lectures in London.

I was astonished to discover that there are fewer tigers in the world than people signed up for our MOOC.  Less than 3,200 tigers exist in the wild mainly because our growing population and prolifigate use of the world’s resources has destroyed their habitat and those of the other species with which we share this planet.

 

 

 

Free: Energy! Thermodynamics in Everyday Life

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sunTalking to camera is difficult…

For the last few weeks I have been spending a considerable proportion of my working hours in front of a camera shooting video clips for a MOOC, a Massive Online Open Course. The first results of this effort and those of my colleagues Matt O’Rourke and Rob Lindsay in the University’s Centre for Lifelong Learning are now available as a trailer. The initial reviews were ‘cool’ and ‘awesome’, so go ahead and watch it!

Innovation to support learning

Some people have commented on the lack of pedagogical foundation in many MOOCs. However, I think we are being quite innovative in the following ways:

  • we are using an established pedagogy, 5Es (see the next paragraph for more explanation),
  • we have designed three do-it-at-home laboratory exercises,
  • the five-week MOOC will run in parallel with the delivery of the traditional course to first year undergraduates in Liverpool and,
  • the traditional lectures will be repeated at the university’s campus in London two evenings each week.

The lectures in London will allow students living around London to meet each other and me, as well as, of course, experience the energy of the live delivery of the course.

For students worldwide (and in London)

If you are a student who has or is struggling with elementary Thermodynamics then register for the free MOOC which will start in February 2016. I will cover the curriculum content of most ‘A’ level modules and introductory undergraduate courses in Thermodynamics. If you are in London and would like to attend the lectures then contact me and I will send you more details.

For teachers/instructors anywhere

If you are a teacher, tutor or lecturer then consider bringing it to the attention of your students. I will be taking a different approach to the traditional way of teaching classical thermodynamics based on my experience teaching at the University of Liverpool using the Everyday Engineering examples featured on this blog together with the 5Es approach to lecture or lesson plans. If you would like to use it in parallel with your own lectures then get in touch with me so that we can talk about synchronization.

5Es

The 5Es are Engage (the students), Explore (the topic), Explain (the principles underpinning the topic), Elaborate (using the principles to analyse the topic) and Evaluate (ask the students to evaluate their learning by performing some analysis). The course has been well-received by students and nearly a thousand have taken it over last four years. This year we are making into a five-week MOOC so that thousands more can learn using it.

Sources:

Real life thermodynamics

Bybee RW, Taylor JA, Gardner A, van Scotter P, Powell JC, Westbrook A & Landes N, The BSCS 5E Instructional model: origins, effectiveness and applications, BSCS Colorado Srings, 2006.

Sian Bayne & Jen Ross, The pedagogy of the MOOC: the UK view,  Higher Education Academy, 2014

Paul Stacy, The pedagogy of MOOCs, http://edtechfrontier.com/2013/05/11/the-pedagogy-of-moocs/