At the German Aerospace Center (DLR) in Göttingen, scientists are exploring the phenomena of compressible flow mechanics in Europe’s largest and ...
The built-in web server, which is hosted on the ESP32, allows monitoring through any device connected to the local network, ...
Neil Hannay reports on the investigation and resolution of calibration limitations experienced during flowmeter development ...
MIT engineers have created a way to pull clean drinking water from air far faster than current atmospheric water-harvesting ...
From roller coasters and farm equipment to discrete and batch manufacturing, inductive sensors enable precise metal detection ...
MIT engineers have created an ultrasonic device that rapidly frees water from materials designed to absorb moisture from the ...
Tech Xplore on MSN
Ultrasonic device dramatically speeds harvesting of water from the air
Feeling thirsty? Why not tap into the air? Even in desert conditions, there exists some level of humidity that, with the ...
Tech Xplore on MSN
Linearizing tactile sensing: A soft 3D lattice sensor for accurate human-machine interactions
Touch is the sense that brings us into direct contact with reality, revealing shape, texture, and resistance. Designing soft ...
News-Medical.Net on MSN
Researchers use organoids to study the earliest moments of electrical activity in the brain
Humans have long wondered when and how we begin to form thoughts. Are we born with a pre-configured brain, or do thought ...
This publication describes the rationale and vision for the peaceful use of nuclear energy. It identifies the basic principles that nuclear energy systems must satisfy to fulfil their promise of ...
Anthropocene Magazine on MSN
MIT researchers invented a way to shake water out of thin air
Extracting water from air is slow and energy-intensive. MIT researchers used ultrasonic vibrations to produce water 45 times ...
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