Icewire Makerspace: helping teens and adults create their own electronic inventions
Electrical and computer engineering professor David Johns is taking a one-year leave of absence from teaching, but that doesn鈥檛 mean he鈥檚 taking a break from inspiring young people to become future engineers or scientists.
Johns will be focusing on , a midtown Toronto facility that provides workshops and six-week courses for youth ages 12 and up interested in electronics, robotics, 3D printing and microcontrollers.
鈥淚 wanted to help out the community,鈥 said Johns, who hopes the initiative inspires young people to pursue science, technology, engineering and mathematics (STEM) at a post-secondary level.
Depending on the focus, by the end of a six-week course members can create their own microcontroller that senses light and temperature, or a 3D-printed model, or even their own robot.
鈥淵ou can give a student a computer and start teaching them programming, but I don鈥檛 think it鈥檚 as engaging as when you give them a robotic,鈥 he said. 鈥淚f you put a kid on a computer to teach them programming, their first question is usually, 鈥楬ow do I make a game?鈥 Whereas, if you give them a robot, the question is, 鈥楬ow do I make it do something?鈥 It鈥檚 a whole different dynamic.鈥
Launched this past fall, the Icewire Makerspace is a passion project for Johns and his two sons (one of whom graduated from 茄子直播鈥檚 computer science program). It's part of a growing global trend of 鈥榤akerspaces,鈥 which are facilities that allow the local community to get together to learn and create, whether their interest be in STEM, entrepreneurship or sewing.
The makerspace movement began in the mid-2000s in Europe with just one or two maker facilities, says Johns, but today, 鈥渢here are probably 2,000 to 3,000 makerspaces worldwide. It has exploded.鈥 The movement has even caught the attention of the White House, which held its first Maker Faire in June.
鈥淭he reason why you didn鈥檛 see this 10 or 15 years ago is because the cost of something like a microcontroller board would cost you more than $150,鈥 said Johns. 鈥淣ow, it鈥檚 like $10. The cost of electronics has come down so much now that it鈥檚 accessible to everybody.鈥
鈥淵ou don鈥檛 have to go out and buy a specific product, you can make one yourself. It鈥檚 a whole new thing 鈥 as opposed to being a consumer, you can now be a creator,鈥 added Johns.
With the price of electronics going down, Johns hopes this will bring change to Ontario鈥檚 science curriculum as well.
鈥淭echnology has really changed but I don鈥檛 think the school topics have really changed. It would have been expensive before, but now it鈥檚 not the case. You can put robotics and Arduinos (an open-source electronics platform to create interactive devices) into the classroom 鈥 all sorts of electronics, at a very low cost. How they鈥檒l do that and when, is the challenge.鈥
Johns is currently working with 茄子直播 Engineering鈥檚 outreach office to have its DEEP Summer Academy program take place at Icewire Makerspace, and is also working with the Toronto District School Board to help provide professional development opportunities for its teachers.
鈥We had 13 of their STEM coaches come into the space,鈥 said Johns. 鈥淚鈥檇 love to help them shape their curriculum somewhat, especially for grades 7 and up.鈥
Liz Do writes about education for 茄子直播 News.