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Producing biomaterials that match the performance of cartilage and tendons has been an elusive goal for scientists, but a new material created at Cornell demonstrates a promising new approach to mimicking natural tissue.
United Airlines will fly greener through its friendly skies, as the airline agreed to buy at least 300 million gallons of sustainable aviation fuel from Cornell startup Dimensional Energy.
The team created and tested a new imaging approach which integrates information about where objects might be located with sonar processing algorithms that decide the optimal views.
A new Forklift Learning Studio at Cornell will be used to elevate engineering education, turning the vehicles into interactive tools for studying thermofluids, modeling structural mechanics, and experimenting with control dynamics.
A Cornell-designed probe shows how water vapor penetrates powders and grains – a finding that could have wide-ranging applications in pharmaceutical research, agriculture and food processing, and planetary exploration.
Three assistant professors from Cornell Engineering have been selected from more than 220 applicants to receive Office of Naval Research Young Investigator Program awards, which recognizes academic achievement and potential for significant scientific breakthrough.
A new Cornell study could help inform the development of offshore wind farms by providing detailed models characterizing the frequency, intensity and height of low-level jet streams over the Atlantic coast.
The Cornell Space Systems Design Studio is preparing to launch a pair of low-cost, modular satellites into low Earth orbit, where they will drift apart by up to 30 kilometers and then, using custom software, locate each other’s position, fire their thrusters and dock together.
A bit of history was made in the annual robotics competition, Dec. 7 in the atrium of Duffield Hall, where a robot created by Cornell students defeated the corporate sponsor’s robot in a head-to-head block-gathering challenge.
Cornell researchers found that by deliberately introducing more defects into a 3D-printed metal alloy, followed by a post-processing treatment, they could create a stronger, more ductile material.
