View allAll Photos Tagged Filaments
lightbulbs, vintage radio vaccuum tubes, polymer, brass, copper, anodized aluminum, swarovski stones
Filament Games has developed over seventy learning games and as a result has developed an acute awareness of the challenges involved in producing and commercializing high quality GBL products. Starting in 2010, this insight was parlayed into six successful US Department of Education SBIR grants, several of which were used to fund a cutting-edge line of game-based science curricula called PLEx (Play Learn Experiment) Science. Dan White (Filament Games) explored the lessons learned during the development of PLEx and subsequent attempt to sell a GBL product to schools.
Photo Credit: Michelle Auyoung
lightbulbs, vintage radio vaccuum tubes, polymer, brass, copper, anodized aluminum, swarovski stones
looks like straight out of a horror movie :)
should give some meaningful skeleton of the lung structure, so it might need some work...
Flash Light Bulb.
Photo taken with a hacked Canon EF 35-80mm lens purchased at a thrift store (with 35mm SLR body) for $20. For more info on the macro lens hack, visit:
In the obvious next step from the straight lines of Pick-a-Stick, curves are plotted between the successive points in the strange attractor. The artist is of the opinion that the results are among the most beautiful available on pixelbrain so far, and has so far amassed several engrossed hours watching them emerge out of the darkness. (These, more than any so far, are worth launching the applets for...)
Created using Processing.
See pixelbrain for more, and try out the applets to watch the images being formed.
lightbulbs, vintage radio vaccuum tubes, polymer, brass, copper, anodized aluminum, swarovski stones
lightbulbs, vintage radio vaccuum tubes, polymer, brass, copper, anodized aluminum, swarovski stones
lightbulbs, vintage radio vaccuum tubes, polymer, brass, copper, anodized aluminum, swarovski stones
lightbulbs, vintage radio vaccuum tubes, polymer, brass, copper, anodized aluminum, swarovski stones
In the obvious next step from the straight lines of Pick-a-Stick, curves are plotted between the successive points in the strange attractor. The artist is of the opinion that the results are among the most beautiful available on pixelbrain so far, and has so far amassed several engrossed hours watching them emerge out of the darkness. (These, more than any so far, are worth launching the applets for...)
Created using Processing.
See pixelbrain for more, and try out the applets to watch the images being formed.
A magnetic filament of solar material erupted on the sun in late September, breaking the quiet conditions in a spectacular fashion. The 200,000 mile long filament ripped through the sun's atmosphere, the corona, leaving behind what looks like a canyon of fire. The glowing canyon traces the channel where magnetic fields held the filament aloft before the explosion. In reality, the sun is not made of fire, but of something called plasma: particles so hot that their electrons have boiled off, creating a charged gas that is interwoven with magnetic fields.
These images were captured on Sept. 29-30, 2013, by NASA's Solar Dynamics Observatory, or SDO, which constantly observes the sun in a variety of wavelengths.
Different wavelengths help capture different aspect of events in the corona. The red images shown in the movie help highlight plasma at temperatures of 90,000° F and are good for observing filaments as they form and erupt. The yellow images, showing temperatures at 1,000,000° F, are useful for observing material coursing along the sun's magnetic field lines, seen in the movie as an arcade of loops across the area of the eruption. The browner images at the beginning of the movie show material at temperatures of 1,800,000° F, and it is here where the canyon of fire imagery is most obvious. By comparing this with the other colors, one sees that the two swirling ribbons moving farther away from each other are, in fact, the footprints of the giant magnetic field loops, which are growing and expanding as the filament pulls them upward.
Image Credit: NASA/Solar Dynamics Observatory