Here is a quote from my class. This guy has it right on.
- all students would have laptops with integrated cameras, microphones, speakers
- all students would work through configurable simulations of key concepts
- all students would have full-time access to all the knowledge (and cruft) on the internet
- students would track their own learning in a public learning log, possibly using blog or wiki software
- anything that students say is within their core competency, they can be tested on
- tests are given one person at a time, whenever the students are ready
- teachers are there to teach concepts, lead labs, and ensure students are roughly on track with a learning schedule that will ensure they learn all needed concepts for state/provincial standards
- frequently, students who have learned a concept would take a turn explaining it to the class. Who could do this and how often would be loosely coordinated schoolwide, so that as much as possible all students get opportunities to present in areas of their strengths
- students would interact with others in learning communities all over the world via Skype. Sometimes a distance or foreign student might lead a discussion on a certain concept. (Note: I’m in conversation almost daily with members of my team in Italy, Norway, Ukraine, China, the United States, and the United Arab Emirates.) The school would seek out 5-6 learning institutions at similar levels and timetables so there’s a baseline of collaborators to start with, but students could talk to anyone if they’re on-topic.
- teachers would frequently bring in social media output of practicing scientists/mathemeticians who are web2.0 producers when appropriate, helping to show relevance
This kind of classroom sounds fantastic to be in. Instead of having to spoon feed a bunch of students who don’t really want to know what you are offering anyway, you as a teacher get to become a mentor and guide. Students would be actively engaged and definitely interested in what they are doing. Given that in our current system many students learn material which they never use again, and fail to learn even the most rudimentary of research skills, this kind of school would empower students to set their own goals and seek their own understandings of how things work. The existance kind of school would be a sign that standardized testing would soon be getting a run for its money.
Obviously there are logistical things to work out. How do we fund such a program, and how to we set graduation requirements so that a time-line for completing of high school still happens?
Questions like, "How do we make sure the students are being productive and not messing around all day?", "Can we make sure that some sort of basic curriculum gets covered in this scenario?", and "Will any students choose hard enough things to study that we will have people entering mathematics, physics and engineering at the university level?" are also a concern.
I think that the first two questions are legitimate, at least in our current paradigm. I suspect that an open learning style like this would help save money that is spent on various classroom management initiatives (think study hall, detentions, jails…) and save society enough money to pay for these types of schools itself. The second question is one where we can only answer it by realizing that suddenly, there is no need for a time-line to complete high school. Students who are able to demonstrate competency in enough areas to attract interest in a university are free to go there. Otherwise students will be trying to demonstrate their competencies to potential employers instead, and when they are ready, they can leave high school too.
Anyway, if anyone knows a place where education like this occurs at the high school level, or anything like it, let me know I’d love to visit.
Richard Kassissieh says:
Are you familiar with The Met schools, started in Providence, RI and now a national network? Also Science Leadership Academy in Philly. I hope to get to better know your background and experience!
Richard
January 20, 2009 — 12:53 am
David Wees says:
Both of those schools look cool. I took a look at them, but had not heard of either of those schools. I guess that my ideal school might actually exist, which is pretty neat.
As for my background, it’s pretty complex. I did my Bachelor of Mathematics at UBC in Vancouver, followed by my Bachelor of Education at the same school. Next, I moved to NYC and taught in an inner city school for 3 years. When my visa expired because of the incompetence of those in charge, I moved on to London with my new wife. Spent 2 years learning the International Baccalaureate and am now teaching it again in a school in Bangkok. Traveling has been fun, but now I hope to move back to BC to be closer to my family. Probably in several years we’ll head back out on the international circuit, or maybe not. I’m currently working on my Masters in Educational Technology which surprisingly enough is also at UBC, through their MET program.
My background in technology started with my first computer when I was 8, a Wang personal computer. All I could do on it was program in BASIC so that’s what I did. A few years ago I started experimenting with web technologies, which is where my main interest (outside of my family) lies. I consider myself proficient with Drupal and several of the web programming languages.
What is your background? I’ve been following your blog for a while and your posts about what you are doing with Drupal at your school have been interesting, especially since many of the difficulties you have had are the same I’ve had while working at my current school, trying to do the same thing, create a public website.
January 20, 2009 — 7:18 am