Keith Code’s Twist of the Wrist

Reading Keith Code‘s Twist of the Wrist 2 on Kindle last night and came across this!  The part I’m in right now goes over how motorcycles tend to be self correcting (unlike cars).

When I bike starts to slide at the back it pushes the front wheel in the direction you want to go (unlike a car that pivots on the front wheels and requires you to counter steer into a slide).

The worst thing you can do on a bike is attempt to force a counter steer into the handlebars.  When you do this you’re creating huge torsional pressure between the front and back of the bike.  The bike resolves this by snapping back violently, launching the rider over the high side of the bike leaned into a corner.

Code keeps drilling in the point that the bike wants to self correct.  If you’re loose, relaxed and gentle with the controls the bike will bring itself back into alignment, even if the back wheel is sliding.

Even backing off the throttle suddenly on a rear wheel slide can cause a high side (you suddenly dump all the bike’s weight onto the front wheel causing it to snap back).  It might seem counter-intuitive, but in a slide maintaining throttle and letting the bike sort itself out will resolve most slides.  It’s a rider’s involuntary reaction due to fear and a lack of understanding of how motorcycle dynamics work that result in most corner related crashes.

I’ve been making a point of practicing throttle control in corners, using lower approach speeds but rolling the throttle on with a light hand as early as possible to balance the weight of the bike 60/40 over the back wheel.  I’m amazed at how settled in a corner the Ninja is now.

Motorcycle dynamics are a completely different beast from car dynamics.

Victory Lapping Like You Mean It

I’ve always struggled with the idea of victory lapping in Ontario high schools.  As someone who returned to high school to finish his final year in his early 20s, I understand the need.  Had I not been able to do that, I wouldn’t be doing what I’m doing now and paying the taxes that I am.  I can see the value in a victory lap, but I did it with purpose, doing a full semester of school while also working a forty hour week.  For those victory lappers I see returning with that kind of intent, I have nothing but patience.

Find Rick & Morty hard to stomach? Your students don’t…

Unfortunately, this past year I saw a number of victory lappers who didn’t apply themselves in school and then did the same again on their victory lap, at great expense to the system.  If it’s to get credits needed to graduate or get into a particularly difficult post-secondary program and the graduate is attacking the opportunity like it matters, then it’s obviously a good thing, but if it’s for familiarity’s sake, as has been the case this year, then I have to wonder why anyone would want to chuck their final year of income (which is usually your best one) down the toilet so they can hang out in high school for an extra year.


Just think about that for a sec.  You’re not giving up your first year of income when you victory lap, you’re giving up your last.  Students (and parents) often misunderstand this fact.  You’ll always start off at the lower end of the pay scale, but where you finish when you retire is what you’re cutting a year from because you’re starting late.  Victory lapping isn’t just expensive to the system, it’s astonishingly expensive to the student, but in a world of helicopter parents and childhoods designed to protect children from the results of poor decision making, we continue to produce graduates who want to stay in the safe, no deadline, guaranteed success of high school.

In addition to this costing each victory lapping student tens of thousands of dollars, it’s also costing the system millions.  Victory lapping isn’t a very efficient way of resolving graduates, but we do tens of thousands of times a year in Ontario.


The other night I was at our graduation where I saw all sorts of students graduating who are returning next year.  If they’re graduating then it means they’ve already gotten the credits they need to move on, so why stay?  Some will argue that they’re staying to raise their grades.  Was it worth tens of thousands of dollars to screw around in your grade 12 year instead of buckling down and getting it done?  Some are staying because they simply can’t think of what to do next and couldn’t be bothered to make plans because the system is waiting to look after them yet again.  Those students (and their parents) are putting an awful lot of weight on an increasingly underfunded school system by doing that, in addition to flushing that year of income down the toilet.



Year over year I’ve seen some radically different approaches to victory lapping.  In 2018 I had some very strong students victory lap and in doing so they did incredible, portfolio building things that helped them get into nearly impossible to access post-secondary programs.  When students do that with a victory lap, ie: ride it like they stole it, then I’d argue it’s a brilliant strategy.  They might have lost a lower last year of earnings, but they’ve gained a new career trajectory that annihilates that loss.  In the case of 2018, where our victory lappers were winning their way to national titles and opening up career opportunities they otherwise wouldn’t have considered, you’d be hard pressed to make an argument, economic or otherwise, for not doing it.


A few years ago I noticed that our victory lappers were often hanging around the computer tech lab having completed the course curriculum.  In many cases they were heading into digital technologies in post secondary and needed a final boost in terms of experience and an opportunity to build portfolio.  A few years ago I developed the TEN4M course, specifically designed for digital technologies students looking to build portfolio for post secondary.  Up until this year it has worked a treat.  An opportunity to exercise engineering process and lead a self directed project that raises digital literacy in our school has been very beneficial.

The first year we did it Zach, who had struggled earlier on, was able to direct his new found maturity into his development as an IT technician to the point where he dominated Skills Ontario provincials with the highest technical score and a gold medal, and then a top five finish in Canada.  In the years since we’ve had students who have helped hone the TGI Game Development course into the weapon it is today, medal winning co-op students who have developed programs with our feeder schools to enhance both their technology and their teaching of it and a wide variety of other students who have developed the hands on technical experience needed to launch themselves into a career in tech.  Cal, our most recent Skills Ontario champion, used his victory lap to help form our first CyberTitan cyber security team and land us a national finalist position, then he went on to win Skills Ontario and get another top 5 national finish.  Cam, another of last year’s victory lappers, also helped launch our CyberTitan program and then went on to a top 10 finish in our first ever attempt at coding at Skills.  In both cases these experiences launched them into Waterloo’s Computer Science program, which is notoriously hard to access.


Finding the time to develop and explore technical skills that require hands-on experience and space to develop is especially challenging in an Ontario secondary curriculum that is still very much focused on academics.  For the students (and there are many) who want to work with their hands rather than at a desk, having an extra year to focus on applied skills is invaluable in a system where every subject is mandatory except those that teach hands-on technical skills.  For students who are trying to expand their digital portfolio in order to access difficult post-secondary options, it really is a necessity if the curriculum is going to remain as it is.

It looks like we’ve got a pretty good handle on how to accelerate students accessing a victory lap into post-secondary options, but this past year has been a victory lap disaster.  In semester one my only victory lapping student wasn’t interested in leading projects or improving school technology access and learning (the point of the course: using your digital expertise, help to improve the school’s digital access and usage).  From the year before when I had students blowing expectations (both mine and their own) out of the water, I went to 2019s flaccid VLappers who were just looking for a free go-around with no initiative or effort required.  In semester two they were so shaky they just ended up dropping out – after flushing a year of income down the toilet.  In cases like this, it’s hard to justify victory lapping in any way.


For the students who need to make up credits or align their high school trajectory with a difficult to access program, I have infinite patience when it comes to victory lapping, but for the directionless, there needs to be something in place (a charge for dropped/failed courses?) that stops this being a year of doing as little as they can while draining a system that is already being strangled financially.  If students are victory lapping with purpose, developing their capabilities using focus from late blooming maturity, then I am more than happy to pay the taxes that enable them to fight their way into a world that is more economically inaccessible now than it has been for any previous cohort.


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Imitation Isn’t That Flattering

Yoda didn’t say that in a vacuum, he was an
attentive and differentiating instructor!

Over the past couple of years I suddenly find myself considered a ‘senior teacher’.  You might think this comes with all sorts of resources like extra time to work on training other teachers where you can show them the tricks of the trade, but this is public education so you just do it for free.  You might think that it would result in a curriculum support role where you can prompt system-wide improvements based on your decades of classroom experience and pioneering curriculum development, but those jobs are all full-time permanent gigs for very specific people with criteria for admission that I don’t evidently possess.

A previous principal told me that my classes are too difficult and I need to turn them down.  When I pointed out that no one had failed any of my courses since he’d arrived for his stint in our community, that held no weight with him; some students and parents want daycare, not education.  I have no interest in providing daycare so I simply ignored his misguided observation.  I get where it’s coming from though, daycare is much cheaper to provide than education.

One of the things we do in my program is get into Arduino microcontrollers in grade 9.  Arduinos offer a tactile introduction to basic electronics circuit prototyping with breadboards and electronics components as well as a coding connection through the C++ based language that runs the microcontrollers.  I’ve been doing this long enough and in such a brutally honest reflective practice stance that I’ve gotten pretty good at it.  One of the things that less experienced teachers (which includes many admin) fixate on is the placement of responsibility for engaging with this hands-on learning on the student.  To the unaided eye this looks like I’m chucking them in the deep end and watching them drown, but nothing could be further from the truth.

Pulling apart tech to show students how it
works is a core learning tool in my computer
engineering program. Tech isn’t magic!

I present this introduction to circuit building in a remarkably structured environment.  I build the first couple of circuits in front of the students, repeatedly reminding them that how the electricity is passing around the circuit which also has the added benefit of showing them the stochastic nature of what we’re doing.  Sometimes you do it all right but the part you’re using is broken, so you have to approach everything critically, iteratively and with sensitivity and patience.  I then leave those working 3d examples in front of them to look at.  Modelling the work establishes with them that I know what I’m doing and encourages them to ask questions.  I also show them a pulled apart breadboard so they can begin wrapping their heads around how this new-to-them (though they spend their whole social lives on it these days) technology works.

It’s that cognitive breakthrough that I’m actually looking for (the hands-on skills are just muscle memory practice).  Some students with strong tactile skills and good visual reasoning are able to imitate the circuits without understanding how they work.  This becomes a problem when they get into more complex circuits later in the unit.  When a student finally begins to see how the electrons are flowing, that’s when they begin understanding basic circuit building in our applied technology class.  If you’re not a teacher reading this, are you beginning to get a feel for the yawning gap between education and daycare?  Could you email the Ontario Minister of Education and fill him in on it too?

To support that hidden cognitive focus I’m on (metaphorical – health and safety would never go for it) roller-skates when I’m teaching grade 9s in the first day of circuit building.  Alanna knows these introduction to circuit building days are one of the toughest teaching days of my semester because I’m not focused on chucking everyone in the deep end and seeing how many fail, I’m focused on getting everyone from misplaced developmentally delayed students to the previously experienced and gifted (all dropped into the same open level tech course) over this challenging cognitive realization.

Some students require one on one support, some figure it out immediately. Some are able to imitate understanding through mimicry but then run into problems later.  I’m keeping a running tally of all of that in my head as I’m running round and round the room helping those who need it.  I’m doing all this by leveraging technical skills that took decades to hone along with teaching skills that have also taken decades to develop.  I understand that recognition is difficult for many, but just because you don’t understand it doesn’t mean you should simplify it so you can.

The sink-or-swim misunderstanding creeps back in when less experienced teachers watch me interact with students who aren’t engaging with the material.  When the system-trained giver-upper waves me over and tells me they don’t know what to do (after extensive set up and support), I don’t cater to their apathy inspired edu-hack (ask the teacher to do it for them).  I’m often left wondering how they got 9 years into the system without anyone calling them on this weak move, but many ‘teachers’ are all about systemic success at all costs – it makes for good statistics and happy management.  I’m in this for the teaching – which is why I’ll never find myself with the power to make system wide improvements.  For those edu-hacker students who have learned that helplessness gives them a free pass, I’ll often prompt them quite roughly with something like, “you haven’t even opened up the how-to webpage or attempted to build the circuit.  I’ll come back when you decide to make an effort.”

This often knocks them back on their heels.  A teacher expecting them to participate in their learning?  How dare they!  I’m going to get my mom to call the principal and tell him this needs to be easier (code: daycare).  Strangely enough, many of these reticent students end up gaining a great deal of confidence as they come to understand how to build circuits in in my thunderdome, it’s the first chance they’ve had to experience a genuine sense of achievement.  No one learns anything from having other people do it for them, no matter how much cheaper that is at a systemic level.  It’s a frustration that this myopia has infected people without enough classroom experience (or common sense) to know that it’s nonsense.

https://twitter.com/JohnNosta/status/1462448960753352710
Fail fast only works if you have enough
skill to realize why you’re failing. Failing
fast and clueless is both expensive & pointless.

Over the past couple of years I’ve watched several teachers imitate my approach and it ends up feeling like a rather embarrassing caricature drawing (my nose isn’t that big – actually it is).  They see what looks like a rough approach that mulches students in order to look for talent, but this isn’t that.  What’s happening is that I’m creating a very structured situation for learning something hands-on and difficult (reality is a cruel teacher) while also placing the responsibility for engaging with it clearly where it belongs: on the student.

Another of the many supports in place are the GREEN BRICKS OF DOOM (!!!).  This is a spreadsheet that is put up on the projector showing who has completed what circuits (you get a greened out block in the spreadsheet when you show a working circuit).  It very quickly becomes apparent that some students are quicker than others, but I don’t consider that a secret, I use it as a learning support.  If you’re sitting next to the girl who has already done the circuit you’re struggling with, ask them what’s going wrong.  This also has the benefit of showing me those students who are faking an understanding rather than building their circuits based on deeper knowledge.  I’ve been told that slower students would find this mean, but they generally lean into the information as it helps them.  That is also recognizes students who are engaged and working it out is something I have no problem with.

I once used the term ‘pedagogy‘ in context with a new administrator and she replied with, “pedagogy? what does that even mean anyway?”  I found this response frustrating though unsurprising from someone aimed at system management where you often have to enforce cost cutting measures that cause harm in order to do the job (something I’d be bad at and another reason why I’m never likely to have any system reach).  But wouldn’t it be something if pedagogical best practices drove everything we did instead of being dismissed?  Perhaps then more people would have a better idea of what I’m doing in my classroom.

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Autumn Colours

Between the cooler temperatures, the steeper angles of sunlight and the changing colours, Autumn ushers in a blast of colour that you can’t find in the sun bleached heat of summer.  Golden hour starts mid-afternoon and lasts for 2-3 hours and the weather tends to have more moisture in it for spectacular sunsets and dewey mornings.  Fall has always been my favourite season.  Even fourteen years of teaching hasn’t beaten it out of me (teachers are supposed to prefer summer).


On a cool Saturday afternoon I took a 90km loop southeast to a part of the Niagara Escarpment I don’t usually ride as it’s too perilously close to the GTA.  I found a few curves and enjoyed the Niagara biosphere green space before blundering too close to the cidiots lined up to get into the only apple farm they’ve hear of.  Once clear of the madness of lining up to buy apples, I found myself heading back home as the sun was setting into a wall of clouds hinting at the days of rain to come.

On bike photos were taken with the Ricoh Theta 360 camera attached to the windshield with Lammcou GoPro Phone flexible tripod.  The camera was set via my smartphone to take a photo every 10 seconds.  I then set and forgot about it and enjoyed the ride.  If you’re curious about 360° on-bike shots, there are more details here.


Closeups were taken with the Canon T6i digital SLR using the Canon 50mm prime lens in the garden.  The gourds at Dar’s Delights (good coffee, excellent donuts!) were taken with the OnePlus5 smartphone (which also remotely controlled the Ricoh).  Editing was done in Adobe’s Lightroom which did well to pull details out of the darker riding photos.


There are two sets below.  The riding photos and the off-bike photos:





Off-bike photography:















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Free Range Computing

Originally published on Dusty World in October of 2013:

I’d initially gone into teaching computer technology with pi in the sky (sic) daydreams of students working entirely on open source hardware and software that they have assembled and coded themselves, free from the evil influences of corporations.  After attending ECOO this year I’m less on the hippy open source bandwagon and more on the inclusivity bandwagon.  It isn’t an educator’s job to ignore corporate technology, but it is their responsibility not to indoctrinate students in only one particular company’s technology because it is easier or cheaper for them.  Student digital fluency has to drive technology access, not corporate carrots or teacher laziness.

I’ve noticed a real move toward the branding of education (and teachers) by technology interests.  This is almost always done to ensure their own monopolistic dominance rather than offering students the widest range of technology experience.  In order to indoctrinate students in a single means of access (in order to later capture them as consumers), many boards are locking students into company specific technology, usually because some kind of discount being offered.  Selling out student technological fluency in order to appear more cost effective isn’t very pedagogically sound.

Would you trust the literacy teacher who only uses one publishing company and brandishes the logo like a qualification?   Does this not call a balanced approach to their discipline into question?  How can the same thing not be said for Google Certified or Apple Distinguished?

It’s one thing to get a professional certification from an platform agnostic professional organization that has no interested in monetizing you, it’s another to brand yourself with the name of a profit driven company that is intent on turning you and your students into revenue streams while limiting access to alternatives.

My knee jerk reaction to this is what had me storming off into the woods and getting all back to nature with open source hardware and software:

***

Raspberry Pi, almost fits in your wallet!

I’ve been thinking about the open source technology classroom I wish I could run.  Engineering based rather than brand based hardware with accessible, open software.  Hardware that could run free, crowd-sourced software.

Raspberry Pi is an obvious starting point.  As a way of showing students the basics of computing cheaply (it’ll run a full GUI OS with internet for about thirty bucks per student), it’s something that they can use to get familiar with how software and hardware work with each other.

I wish they’d come up with a Raspberry Pi à la mode, a 1 ghz 2 core unit with a gig of ram, hdmi and 2 usb 3.0 ports.  They can toss the video in and separate audio 3.5 jack out (hdmi has audio built in anyway).  If they could pull that off and keep it close to the same size I’d think twice about stepping up from the Pi.

***

It’s beyond the Pi that open source hasn’t developed enough high level hardware to take on more advanced learning environments, though having students build digital tools from a variety of components has its own value.

There are plenty of software options, but ready made agnostic hardware is thin on the ground.  This is when I started to think about systems that, while branded and corporately developed, might be focused on access to a variety of technology rather than the tyranny of one:

***

In the meantime, from the Pi how do you create a free range system that lets students experience a variety of operating systems and software?  The recent nano-desktop round of computers offer some interesting options.

Intel NUC

The NUC (next unit of computing) by Intel is an engineering platform that crams an astonishing amount of processing power into a package the size of a paperback novel.  With an i5 processor and up to 16 gigs (!) of ram, this thing is a monster.  It would handily outperform any desktop in our school right now.

If we could get a NUC sorted out in some kind of student-proof Otterbox type enclosure we’d have a tough, durable, wickedly fast, open computer that would offer students a totally customizable platform for just over $400.  Presumably we could whittle that down to cost (maybe ~$300?).

Having a dock in labs that would allow students to plug their own PCs (personal again!) in would be one means of accessing the box.  Offering a plug in touch screen peripheral that could do the job of a screen/mouse/keyboard would be another avenue that would create a very powerful laptop/tablet option.  Pica-projectors would be another way to produce screens out of thin air, and they are rapidly becoming smaller and less energy consuming.

The nicest thing about the NUC is that it could work with pretty much any operating system you could want.  Students could come to class with a paperback sized computer that could boot into Apple OSx, the Windows flavour of your choice or any of a number of Linux distros (including Chromium).  You wouldn’t have Mac labs, or Windows labs, you’d have whatever you wanted/needed to boot into.

A truly agnostic hardware platform that would offer you access to any software on any operating system.

Foxconn Nano PC

Another (cheaper) option is the Foxconn Nano PC, which retails for substantially less (only $219 retail vs. the $420 NUC).  The Foxconn unit runs on an AMD processor (not Apple friendly) but offers strong graphics performance from its (Canadian!) graphics subsidiary ATI.

It would still run any flavor of Windows or Linux you could throw at it (including Chromium) and is as svelte as the Intel option.  Education purchasing could probably get these down into the $150 range.

***

The real goal would be to create opensourceedtech.org and have educators themselves crowdsource an open, upgradeable, accessible hardware system that is designed to teach students about technology in all its various forms.

The chance to develop personalized learning technology would take us away from the ignorance and learned helplessness we peddle today in education and offer all technology companies a level playing field on which to ply their wares.  Our students would experience a wide range of operating environments and software as well as being aware of how hardware impacts those systems.

Thoughts on mastery learning in digital spaces (from my ECOO13 presentation)

Imagine high school graduates who have worked on a variety of operating systems that they have installed and maintained themselves.

Imagine graduates who understand how memory, processor and storage work with software because they’ve experienced hands on changes in this hardware.

Imagine graduates who are able to problem solve and resolve their own technological problems because the breadth of their familiarity with technology is such that any new digital tool they lay their hands on isn’t a mystery to them.

Imagine students and educators who go to the tool they need to get the job done instead of having the tool dictate the job.

Imagine students who have enough familiarity with code that they can appreciate the complexity of the world we’re living instead of being baffled by it.

I was having doubts about putting corporate logos on my office windows, but I don’t any more.  Instead of taking down the Google stickers I’ve added Apple, Microsoft, Linux, Toshiba, Dell, Asus, IBM, Lenovo, Arduino, Raspberry Pi and will continue to add others.  The point isn’t to run off into the woods and live in vegan austerity on open source hardware, it’s to make all technology available to students so they can appreciate the astonishing variety of systems we’re immersed in, and not be made helpless by it.

2017 Update:  Building your #edtech on shifting ground.  Not much has changed in terms of corporate control of digital learning in four years since this was first written.

Canadian/Ontario Summer Nature Photography

Photography from around Ontario, Canada over the past ten years. Includes wildlife in Algonquin Park, time at the family cottage near Bobcaygeon and photos everywhere from Tobermory to Ottawa.

Older photos taken with the long gone Fujifilm 9100s superzoom camera, the up until early 2017 Olympus Pen mini-SLR and most recent photos with the latest Canon T6i (I have no preference for cameras. A good photographer can take a good picture with just about any camera, especially any higher quality SLR. Any underwater shots were taken with an ancient but still working Fujifilm waterproof point and shoot.

Algonquin Park moose.

Garter snake in the Haliburton woods.

Freezing the wings on a hummingbird.
Bass in Bass Lake near Bobcaygeon, ON.

Flowerpot Island boat trips off the tip of the Bruce Peninsula near Tobermory, ON.

Summer time camp fire on Bass Lake.

A Canadian childhood.

The ferry in Tobermory.

Belted kingfisher over Bass Lake, ON.

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Performance and Practicality

I’m finding myself suddenly reading Practical Sportsbikes because the winter subscription I get to Performance Bike Magazine has migrated over as PB ends a three decade run and merges with their more practical (and I’m assuming more popular) child publication.  


I’m enjoying Practical Sportsbikes (they offered me a couple of back issues during the transition), though I miss some of the best bits from Performance Bikes like the Rutter comparison tests and the general focus on riding.  There is a rawness to Performance Bikes that sometimes reduces itself to the juvenile, but you can’t deny their love of riding.  If the new combined publication can keep Performance Bike’s active, athletic and obsessive focus on riding then I think I’ll enjoy the new combination.


I’ve tried Practical Sportsbikes a few times but find it gets a bit lost in nostalgia driven mechanical minutia.  I’ve never been much of one for nostalgia, it’s never as good as you remember.  Mechanics and practicality are all well and good too, but for me, for now at least, it’s the visceral act of riding that should take centre stage.  If practicality was the primary motivation, I wouldn’t ride a motorbike in the first place.


Here’s hoping…

PB has always tapped racers and performance focused riders to shine a light on the act of riding, something they obviously love obsessively.  If the new magazine can combine that love with the mechanical sympathy needed to enable it, then I might be in for a whole year subscription instead of just using PB to get me through the neverending Canadian winter.


I usually look to BIKE Magazine for my joy of riding buzz.  This new publication might be able to give them a run for their money by offering a wider range of performance focused riding while still scratching that mechanical itch.


Here’s hoping they find a way to balance the two into a monthly ode to the visceral art of motorcycle riding and graft of mechanical sympathy that enables it.

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COVID19: Desperate Times Call for Tangible Measures

Originally published in March of 2020 at the outbreak of the COVID19 pandemic which resulted in years of cobbled together, inconsistent management of Ontario public education: https://temkblog.blogspot.com/2020/03/covid19-desperate-times-call-for.html

 

My first instinct is to show some initiative and begin solving problems when things get difficult.  I’m frustrated at the lack of transparency, communication and minimal focus on effective learning process going forward.  Had I any say in how things are going down, I’d break this down into two approaches:


One unit would be working to immediately attempt to address digital divide issues and try and close the gap on the number of students without technology or connectivity at home to as close to zero as possible.  This would also have the benefit of connecting poor families as well as their children to the major source of communication the rest of us share these days.


The other unit would set up online learning officers at each school board who have the latitude to make agile changes to organize staff so that they are able to communicate with students and leverage existing digital communications to try and provide genuine alternative programming that will allow students to resume their face to face studies eventually without the time away being a complete loss.  Throwing out generic material online isn’t going to do any of that.

Being an ex-IT technician I’m very interested in trying to quickly resolve the logistical and technical issues around the digital divide:  Dusty World: Exceptional Times: Using a Pandemic to Close the Digital Divide.  I’d leave the people management to others better suited to it.


At times like this the top heavy nature of Ontario Education with all the ministries, unions, boards, colleges and goodness knows what else, really comes into focus.  We’re unable to put the focus where it should be (on enabling student learning, remember?) because they’re all too busy getting in each other’s way.


I was involved in a VoicED podcast yesterday on how student privacy could be compromised as we rapidly migrate online in response to the pandemic:  EP 06 – Special Pandemic Edition: Transforming Education Under Pressure | voicEd 


Student data privacy is already quite opaque and uncertain with boards all doing it differently, or not at all, with little ministry of government oversight and many questions around who has access to what.  A sudden shift online is only likely to make things worse, but it’s also an opportunity.  An opportunity to begin seriously teaching digital skills in a coherent and meaningful way instead of the piecemeal curriculum we’ve cobbled together to date.  With better digital fluency will come a more responsive and effective online learning response to this pandemic.


If this situation has shown anything, it’s that digital communications are vital in creating a coherent social response to this crisis.  Closing the digital divide would not only help those students on the wrong side of it, but would also create a more inclusive Canada.  We couldn’t be bothered to do it when life was easy, but maybe we could do it now when life is hard.


I’ll end this with the 3 suggestions I ended the podcast with:


1) Use existing board walled gardens (UGDSB’s UGcloud is particularly well put together) – that’s vetted material in a secure environment – all UGDSB students will know how to use it too. Whichever board your child is in, there will be an educational technology equivalent where they can work in a protected space… and communicate with classmates and teachers!


2) Parents shouldn’t stress out because of all the ‘we’re giving you the tools to home-school’ rhetoric coming out of the government. No one expects you do get a degree in teaching and begin doing it effectively. This piece from the NY Times might talk you down a bit: https://ift.tt/3abMd2l  Keep in mind that the ‘anyone can teach’ nonsense is recent Ontario government rhetoric and not true.  Putting that expectation on yourself at this difficult time isn’t fair to you or your family.


3) Talk to your kids’ teachers! If you’re in my board you have online access on UGcloud to do this – most other boards have similar systems. The vast majority of us want to help and want to do something. We’re generally frustrated at all the suits who keep telling us not to.  We should be signing out laptops to the students who need them and providing internet for those without, not doing PR.


Discussions about this are happening in many places:
https://www.linkedin.com/posts/temking_ep-06-special-pandemic-edition-transforming-activity-6647304569095274496-3P84
https://twitter.com/Stephen_Hurley/status/1241367358754770945
… just not where they should be happening between ministry, boards and teachers.

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50 Year Old Triumph Bonneville Restoration: Amal Carbs and the Fuel Tank

A place where logic, precision and cause and
effect still matter in a world gone mad.

 After the random weirdness of work, time in the garage with the old Bonneville is remarkably
straightforward and logical.  I suspect the bike was in the middle of a Captain America Easy Rider customization in the early/mid eighties when it got parked and time left it behind.  I got it from Brian’s storage shipping container where it was out of the weather and raised off the ground.  I don’t know where Brian got it from but I suspect it was always stored inside.  I battled with a mid-nineties Kawasaki that had been left outside back in 2014 and this much older machine is nothing like as seized, rusted and difficult to get into.

Anything that doesn’t immediately loosen gets a bit of heat and then comes free without any headaches.  Not being in a rush and leaning on the spannering skills I’ve refreshed over the past decade is making this an enjoyable and meditative process.

The surface rust came off the tank with a bit of sanding.  I’m going to see if I can knock out the dent and then strip it all back.  I used Metal Rescue on the Honda Fireblade tank in my last project and it did a fantastic job of cleaning that unused and rust tank out.  I’ll let it sit overnight and then do the power wash tomorrow and hopefully the tank’ll come back to me.

The Amal carburetors on the bike are remarkably simple compared to what I’ve been up against before.  Last time around it was a bank of four last-generation-before-fuel-injection carbs on a ’97 Honda Fireblade.  Before that it was a bank-of-four on a ’94 Kawasaki GTR1000 and then another complex bank of four on an ’81 Yamaha XS1100.  The old Bonnie’s single Amal carb per cylinder is a simpler design from a simpler time compared to those complex Japanese four-pot carbs.
Airbox sleeves off.

Carb clean up with a fine wire brush and wd40.
Some aluminum corrosion in the bottom of the carb bowls but it cleaned out nicely.

They’ve been sitting for a long while, but all the hard parts look to be in good shape.

After an initial cleanup I’m going to break down each carb and clean the hard parts in a ultrasonic cleaning bath before reassembling with new gasketry from British Cycle Supply Co..

I think my plan is to get the bike operational mechanically and have it going next spring having cleaned up and rust painted the frame and body.  Once it’s operational I’ll ride it for a season rough and get to know it before looking to a complete engine rebuild and deeper restoration of frame and body panels at a later date.

In order to get it back to rideable, these are the parts I think I’ll need:

  • carb gasket rebuild kit x 2
  • exhaust pipes x2
  • mufflers x2
  • ignition cables (and possibly some other electrics)
  • headlight
  • indicators
  • battery
  • head and sump gaskets for the motor (I intend to go in and clean things out/have a look around before I run it)

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