Deborah Bowness has lots of lovely hand-printed wallpaper on her site (realistic pics of salvaged chairs, and walls full of unused frames), but my favorite has to be this fake bookshelf wallpaper. While it definitely fits into the "good from far and far from good" category for anyone actually looking to sift through your book collection, I think it's kind of charming. Particularly, since the books chosen are slightly worn, tattered copies, instead of fresh from the bookstore hardbacks. Perfect for the superficial intellectual! Link via the always enlightening OhGizmo.
Artist James Nolan Gandy invents robot arms that sketch intricate mathematical shapes with pen and paper. When viewed in real time, the effect is impressive. But it becomes even more so when the videos are sped up in a timelapse. If you look closely in the video below, the illustration appears to materialize faster than the robot can put the design to paper. Gizmodo recently explained how the illusion works to make it look like parts of the sketch are forming before the machine has time to draw them.
The optical illusion isn’t an example of tricky image editing: It’s the result of something called the wagon wheel effect. You can observe this in a car wheel accelerating down the highway or in propeller blades lifting up a helicopter. If an object makes enough rotations per second, it can appear to slow down, move backwards, or even stand still.
This is especially apparent on film. Every “moving image” we see on a screen is an illusion caused by the brain filling in the gaps between a sequence of still images. In the case of the timelapse video below, the camera captured the right amount of images, in the right order, to depict the pen as moving more slowly than it did in real life. But unlike the pen, the drawing formed throughout the video isn't subject to the wagon-wheel effect, so it still appears to move at full speed. This difference makes it look like the sketch is drawing itself, no pen required.
Gandy frequently shares behind-the-scenes videos of his mechanical art on his Instagram page. You can check out some of his non-timelapse clips like the one below to better understand how his machines work, then visit his website to browse and purchase the art made by his 'bots.
And if you think his stuff is impressive, make sure to explore some of the incredible art robots have made in the past.
Kate MccGwire is a British sculptor with an unusual medium: feathers. Her surreal, undulating works often take the form of installations—the feathers spilling out of a drain, a stove, a crypt wall—or stand-alone sculptures in which antique bell jars, cabinets, or trunks contain otherworldly shapes.
MccGwire developed her obsession with feathers after moving to a studio barge on the Thames in 2006, as she explains in a video from Crane.tv recently spotlighted by Boing Boing. The barge was near a large shed full of feral pigeons, whose feathers she would spot on her way to work. "I started picking them up and laying them out, collecting them," she remembers. "And after about two weeks I had like 300 feathers." At the time, concerns about bird flu were rife, which made the feathers seem "dangerous as well as beautiful."
When not supplied by her own next-door menagerie, the feathers for her artwork come from a network of racing pigeon societies all over the UK, who send her envelopes full every time the birds molt. Farmers and gamekeepers also send her fallen feathers from birds such as magpies, pheasants, and roosters.
The cultural associations around birds are a big part of what inspires MccGwire. “The dove is the symbol of peace, purity, and fertility," she told ArtNews in 2013, "but it’s exactly the same species as a pigeon—which everyone regards as being dirty, foul, a pest.”
The same duality is present in her own work, which she frequently shares on her Instagram account. “I want to seduce by what I do—but revolt in equal measure. It’s really important to me that you’ve got that rejection of things you think you know for sure.”
You can see some pictures of MccGwire's work, and watch the video from Crane.tv, below.