Kids Engineer!

At the suggestion of a doctoral student I met at a robotics conference, I did a series of interviews with some of my elementary robotics students.  I started a program this year that consists of robotics projects at every grade level from preschool to grade 6.  Additionally, there are open ended engineering challenges, based on robotics, at grades K, 2, 4, and 6.  These consist of challenges like building your own burglar alarm or carnival ride instead of the standard projects where they build a design from the book.

The kids repeatedly said that the projects were fun (this was mentioned some 24 times with the next most common being that they liked that it was hands-on, which was mentioned 13 times.  When I asked them why it was fun, they said because it was hands on or that that it was satisfying at the end or that it was different. I say the same things in my and grant applications:  hands on is better, fun, a good way to learn, etc.

But I was left feeling that I was not getting at the core idea of why it was fun for them.

At the same time, I was editing some videos of my son Aidan.  I try and create a DVD made up of movie clips and a slideshow every 6 months.  Aidan, my wife Dawn, and I love to watch them periodically.  I am fascinated to both see how Aidan has changed and how he stayed the same.

Here’s a clip of my son Aidan playing with some Lego blocks.  I have always loved this creative, dramatic play that he does with blocks.  He also does this type of play in the bath.

I have been thinking that I will miss this when it stops and was assuming it was just something all kids do and all kids grow out of.

But I was out running one day with my dogs and it hit me, that the fun the older kids are having with robotics has a connection to the creative play my son and presumably all kids do.

In kid’s creative play, they create – with blocks or other toys – their own microworlds that they have absolute control over.  The building seem to be in service to or a prelude to the dramatic, creative play that follows.  This dramatic play has characters, plots, and many, many sound effects!  As I watch children PK-6 work with robots, I see aspects of this creative play, especially in open ended challenges where they can build their own design.  I see some of that fade, at least explicitly, over time.  However, I did see, even in this year’s sixth grade class, some Lego characters attached to cars in different ways.

Then, when out a run one day, it hit me that robotics taps into the creative play younger kids do.  Robotics is creative play for older kids.

How much do we tap into this at school?  Not very much!  Students were clear that one of the reasons that robotics was so fun was that it was different, not something they usually do, and where they get to build, and get to do things without teacher help or following directions.  Aren’t those reasons some of the key features of creative play?

I think we tap into some of the creative play instinct in creative writing and art, which tend to be more attractive to girls, speaking very generally.  But very few teachers tap into the (typically boy) activities of blocks and/or Legos.  I always had a take apart center in my third grade classroom, where students could take apart electronics gear and old typewriters.  This attracted many boys, especially those with learning disabilities (LD) and/or attention deficit disorder (ADD).  We have seen the same thing with elementary robotics, where many boys with LD or ADD that do lots of Legos at home can really shine and be stars and helpers in their classrooms where they usually struggle.

I think we are missing many boys in elementary school by not tapping into this creative play instinct.  Somehow, corporations are not missing this point however, by creating and selling billions of dollars of action figures and other toys that do tap into creative play, sometimes in ways that are not as constructive as they could be.  We are not tapping into this at schools, if anything we are actively repressing it.

This Ted Talk by Ali Carr-Chellman does a great job of laying out some of the reasons elementary schools are failing boys.

A teacher I work with has always wondered why games we do such as My Make Believe Castle, SimTown, and SimCity are so popular with kids.  Again, I believe these “god” games, where the player controls their own microworld, tap into the creative play instinct that is so strong in toddlers and preschoolers.

Even though this insight answered many questions for me (and is theory and not proven), many more emerged.

How does this creative play instinct evolve over time?  Are there developmental milestones ala Piaget that are similar for creative play/building/engineering?

How does it fit into Multiple Intelligence Theory?  MI Theory does not seem to have a corresponding intelligence for the creative play/building/engineering that I am talking about.

How does it fit into our aboriginal roots?  Have children always built and played with things in some way?  How has this evolved over time and what survival value did it have originally?

Why do preschoolers and toddlers, who do everything – music, dance, drama, humor, sports, art, language, building, social, nature, spirit – eventually stop doing everything?  Are they forming their identity and self selecting things that correspond to their natural talents and interests?  Are we culturally selecting certain aspects of personality, with only those with very strong inclinations, able to keep those going?  What are the effects of schools valuing some of these over others?

Does the relative lack of engineering and building experiences in elementary schools narrow the pool of students have may had inclinations towards engineering?  By the time they are exposed to engineering in high school (if at all), is it too late?

I started interviewing our robotics students yesterday.  Sixth graders were the first group to be interviewed.  I found it very valuable to take even a short time to talk to students about how they experience robotics.  It was interesting to hear how students validated many of the things we say about robotics education but in their own words.  So they said things like:  “I like to build things”, “We don’t usually get to build things in school”, “I like to use my hands,”  “We get to try it and see if it works.”  Other students articulated very clearly my approach, which I had never really considered that they would think about.  One student said it really worked for him that we started with simpler, more structured projects, and then had an open ended challenge.  Another student validated the whole tech program here that builds and builds starting from K and I found out she taken my Scratch lessons and done a lot at home. Can’t wait to do more interviews and also talk to the younger kids.  It’s so valuable to take even a short amount of time and see how they experience things.   I think they found it validating when I shared my observations of them and asked me to comment on them.

Here are some sketchy “take away” ideas from the Tufts conference.

Having a clear problem definition is key in determining direction of lessons and how much “thrashing” students do at the beginning of the engineering project.

How do we to change our instinctual reactions to be more in line with our underlying, often implicit goals in busy, goal oriented, multidimensional teaching environment?  How can we really take the time to understand student’s thinking?

Be clear on your objectives.  Robotics are very rich in terms of content and process.  You have science, engineering design, process, affective, and social goals.  If you are clear on where you want to go, your lessons have a greater chance of going there.  You can also deliberately choose to keep things open and go in the direction of the student’s interests and needs.

How to best mix concept and process goals?  There is a view that students should learn the process of science and engineering more than specific content at young age.  On the other hand, public school teachers must attend to our content standards.  How can be meet both objectives?

How can we make engineering documentation/products/drawings for young students more meaningful?  Need an authentic audience and/or sufficient complexity.

What makes for effective engineering instruction with young students?  A big question.  I am hoping to come up with a tips document specific to young students and also try and research this question more thoroughly through my own work and/or the work of others.

State and national standards are moving towards embedding engineering into standard and are also working them into younger grades.

How can we study the affective aspects of young boys with attention and learning issues that shine with Lego but not other areas of school?  Use more video in my PK-6 project to interview students.

Ideas for new talks.  Why Teach Engineering to Young Kids?  Top 10 Tips for Teaching Engineering to Young Kids

Lots of interest in the PK-6 Elementary Engineering Curriculum I am working on.  May set up a mailing list for early elementary engineering.

At the Tufts Lego Engineering Symposium, we were assigned the task of making a drawing of a device that could hover in a vertical wind tunnel powered by a fan.  After time ran out, we were told that the we should pass the drawing and our device to another team to implement the modifications.  While drawing, there was not a strong motivation to make a good drawing.  Of course, if we knew that it would be used, there would have been a strong motivation.

It got me thinking about how many of our teacher requests for documenting the engineering process are not authentic.  Given the materials that we had in front of us and the complexity of the task, a drawing was not really needed.  I thought of the following diagram to show what is and what is not an authentic drawing.

By internal, I mean drawing to help you or your team understand the problem or solution and not specifically meant to shared outside of the project.  By external, I mean drawings shared outside of the team in a meaningful way, such as drawings for someone else to build from, but NOT something just for the teacher to look at.

I think we mostly ask kids to provide low complexity drawings for us and not for an authentic audience.  How can we move into the other boxes?  Make sure there is enough complexity that a diagram is needed and/or provide an authentic audience of their peers.