Tiny robots activated by magnetic fields may be used in future biomedical procedures.
Chuck Hoberman is an artist, engineer, architect, and inventor of folding toys and structures, most notably the Hoberman sphere. In addition to toys such as the Hoberman sphere, Hoberman created the BrainTwist, a hard plastic tetrahedron that folds, stellates, and becomes self-dual while having a component that rotates similarly to a Rubik’s Cube.
The Hyposurface is comprised by a matrix of actuators, which are given positional information via a highly efficient bus system as well as an array of electronic sensors used to trigger a variety of mathematical deployment programs.
Diffusion Choir is a kinetic sculpture in Massachusetts that moves like a flock of birds. It’s comprised of 400 origami-like birds that perform a synchronized dance.
ShapeShift is a compact, high-resolution (7 mm pitch), mobile tabletop shape display. We explore potential interaction techniques in both passive and active mobile scenarios. In the passive case, the user is able to freely move and spin the display as it renders elements.
Hyundai Motorstudio Goyang is the largest automobile theme park in Korea, located about 40min northwest of Seoul. The highlight of the exhibition is the Design Area featuring a beautifully designed kinetic sculpture and a spectacular 360 degree film presentation for which designers have created multichannel sound and music.
Origami is the ancient Japanese art of paper folding. But to engineer Mary Frecker of Pennsylvania State University, it is the future for designing tools that could be used in fields such as medicine and space exploration.
kinetiX is a transformable material featuring a design that resembles a cellular structure. It consists of rigid plates or rods and elastic hinges. These modular elements can be combined in a wide variety of ways and assembled into multifarious forms.
Make A Ripple (2017) is a custom kinetic sculpture. It consists of 60 moving elements that are interconnected with springs. The elements are counterbalanced rods with disks on the ends which can pivot freely on a kind of universal joint.
Sebastian Errazuriz Studio is creating a series of kinetic sculptures that focus on interactive furniture. With his functional sculpture projects, Errazuriz is rethinking the everyday and “breaking open the box.”
For this monument with its advanced technology, constantly illuminated with LED lights, Koert Vermeulen & ACTLD created in total 1260 shows to produce the genuine dynamic effects through a play of light, video, water, fireworks, as well as bubbles and sounds.
The Shed’s concept is simple: It’s the 120-foot tall building that moves. This idea is both its architectural hallmark and its metaphor for the future of culture.
This is a video by Ahmad Rafsanjani showing buckling-Induced Kirigami Physical Review. Kirigami is a variation of origami that includes cutting of the paper, rather than solely folding the paper as is the case with origami, but typically does not use glue.Typically, kirigami starts with a folded base,
Designed by MIT researchers and Known as M-Blocks, these self assembling robots are cubes with no external moving parts. Nonetheless, they’re able to climb over and around one another, leap through the air, roll across the ground, and even move while suspended upside down from metallic surfaces.
Harvard researchers have developed a general framework to design reconfigurable metamaterials. The design strategy is scale independent, meaning it can be applied to everything from meter-scale architectures to reconfigurable nano-scale systems such as photonic crystals, waveguides and metamaterials to guide heat.
This film was made by Ashok Rupner TATA Trust: Make a wonderful HYPERBOLA from straight sticks! This work was supported by IUCAA and Tata Trust. In geometry, a hyperboloid of revolution, sometimes called circular hyperboloid, is a surface that may be generated by rotating a hyperbola around one of its principal axes.
In recent decades origami structures and forms has been of increasing interest to mathematicians and engineers. Mathematicians are more interested in the geometrical aspects of origami objects such as foldability of origami patterns, especially foldability of developable surfaces.
Oddly satisfying scientific curiosities featuring various engines with candles, ferrofluid toys, kinetic art that uses physics, optical illusions, various forms of dices, math toys/shapes and more mindblowing stuff!
These models are incredible examples of what 3D Printing is capable of! In this video, you can take a look at Nautilus Gears, Gear Bearing, Reuleaux Triangle Bearing, Geneva Mechanism, Iris Box, Cube Gear.
Georgia Tech researchers find ways to use Origami as the structural basis for real world applications such as deployable antennas and bridges.