![]() ![]() Measure and cut a piece of black foam board to cover the area of the frame outside the monitor. I will probably select a different vendor if I were to do it again or may be make my own. I went for a 3mm prebuilt 2-way mirror but it had a slight fun house mirror effect. There is also an option to build one from scratch with acrylic or glass and a reflective window tint. ![]() ![]() This will prevent any damage to the special coating during the normal cleaning and daily use of the mirror. ![]() Take a moment to identify the side with the coating and keep it facing towards the back side of the magic mirror. But when the light is bright on one side, and much darker on the other, the glass will look like a mirror to the people on the brighter side. If the light intensity is the same on both sides of the glass, the mirror will look like a normal piece of glass. This means it reflects about half the light that hits its surface and allows the other half to pass through to the other side. However, while the reflecting coating on regular mirrors is dense and returns all the light that strikes its surface, the reflective coating on two-way mirrors is more sparse. Like all mirrors, these mirrors have a reflective coating. Install a 2-way mirrorĪ bit about the 2 way mirrors. So, I covered it up with some black tape to avoid possible light reflection. Remove the plastic frame around the monitor to expose the bare screen and the electronics. Drill some holes on the top and bottom sides of the frame for ventilation. Once dry, it is ready for sanding and color. Secure the front of the frame to the sides using some wood glue and let it dry for a couple of hours. I used some inexpensive 2 1/2" furring strips. Create the electronics housingĪssemble the sides of the frame. The dimensions were based on the space available on the wall, the size of the computer screen I had, and the cost of the 2-way mirror I had the budget for. So, I used some door trims that were left over after I had replaced the slab doors with the 6 panel doors in my house. I wanted to give it a slightly antique look to strike a contrast with the relatively modern concept of a smart mirror. Construct a frameĬonstruct a decorative frame to match your style. I recently created a magic mirror to spend more time on front of the screen (as if my current screen consumption is not enough :)Ī brief overview of the steps I followed is given below: 1. The technology is driven by a Raspberry Pi or PC, combined with voice recognition and touch technology. The magic is created by placing a transparent mirror over a tablet, monitor, or TV. Handy.A Magic Mirror, also known as a smart mirror, displays the time, weather, calendar, news, and social media updates. Informational or advertising displays are among the more common non-hobbyist uses for the Raspberry Pi, so it’s probably past time for someone to have created an operating system designed solely for this purpose.įullPageOS, the brainchild of developer Guy Sheffer, is a stripped-down operating system based on the open-source Chromium browser that lets users set up Pis as the drivers of display boards without having to manually configure a browser for the task. Taylor Martin over at CNET has a laundry list of reasons to get pumped for official Android support on Raspberry Pi, many of which were echoed by commenters on Reddit, with particular enthusiasm for the idea that a Raspberry Pi could soon serve as an Android TV box. There’s no shortage of operating systems officially available for the Raspberry Pi – and with a little ingenuity, you can probably crowbar a number of unofficial ones on there as well – but the news that Android is coming to the Pi has a lot of people pretty excited. The first shipments will go out in July, according to a report from the Inquirer. Moreover, you program the Bit via a web and Bluetooth interface, instead of directly by connecting a keyboard. The Micro:Bit isn’t identical to the Pi, of course – it’s battery-operated, for one thing, and it’s designed with more of an emphasis on sensor peripherals instead of pure single-board computing. (The project went through months of delays, having been originally slated for late 2015.) While there are a lot of small hobbyist computers out there – everything from the Arduino to the BananaBoard – the BBC Micro:Bit is the closest to the Raspberry Pi in terms of pricing and feature sets, and it’s finally available for pre-orders in the U.K. Micro:Bit goes on saleĪnd just like that, we’re off the Raspberry Pi entirely. The ability to tinker with it via a snazzy web app, rather than a Linux command line, is attractive, however. Pretty cool, no doubt, though most of the functionality is already out there. ![]()
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