A new fingertip device developed by researchers at University College London (UCL) mimics the sensation of real touch, opening up exciting...
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Inspired by vintage push puppet toys, engineers at UCLA have created a groundbreaking new material that can change its shape and stiffness, opening up exciting possibilities for use in soft robotics, reconfigurable structures, and even space engineering. This innovative material mimics the inner workings of the toys, which can stand tall or collapse with a […]
A new fingertip device developed by researchers at University College London (UCL) mimics the sensation of real touch, opening up exciting...
Inspired by the architecture of human bone's tough outer layer, engineers at Princeton have developed a cement-based material that is 5.6 times more...
A better understanding of the inner workings of neutron stars will lead to a greater knowledge of the dynamics that underpin the workings of the...
Scientists have achieved a groundbreaking success by developing a special type of material known as 3D photonic crystals, which can completely block...
A flexible screen inspired in part by squid can store and display encrypted images like a computer—using magnetic fields rather than electronics....
Researchers at Cornell University have developed tiny robots, less than 1 millimeter in size, that can fold into 3D shapes and crawl, offering...
Researchers at Cornell University have developed tiny robots, less than 1 millimeter in size, that can fold into 3D shapes and crawl, offering...
Hawthorn defender Josh Weddle is confident the Hawks can overcome the challenges posed by the longer wingspans of the Western Bulldogs’ three tall...
In the history of war, you can have the best weapons and military forces but all of them will be destroyed if supported by poor logistics. This is...
In the history of war, you can have the best weapons and military forces but all of them will be destroyed if supported by poor logistics. This is...