Sound and vibration control are essential for technologies like ultrasound imaging, microelectronics, and advanced sensors. Traditionally, these systems rely on fixed designs, limiting flexibility.

Scientists at the Advanced Science Research Center at the CUNY Graduate Center (CUNY ASRC) have discovered a way to control ...

Walk inside a leading science center in China filled with experimental zones, models, and futuristic interactive displays ...

Walk through a futuristic museum in China filled with scientific models, educational zones, and immersive visuals in 4K ...

Roy Waugh is a vocalist, recording artist, motivational speaker, and bestselling author whose work bridges the realms of ...

A research team led by Prof. Lin Yiheng from the University of Science and Technology of China (USTC), collaborating with Prof. Yuan Haidong from the Chinese University of Hong Kong, succeeded in ...

“In the best-case scenario, when you adopt these new techniques, even on the same old data, it’s kind of like putting on glasses for the first time, and you can see the leaves on the trees,” said Kyle ...

LOS ANGELES, Oct. 9, 2025 /PRNewswire/ -- Therabody, the global leader in wellness technology, is proud to announce that its ...

"You're basically creating molecular circuits in the machine's memory versus connecting together a bunch of steps in a piece ...

On Oct. 9, 1876, Alexander Graham Bell made a telephone call to his assistant a few miles away — the first demonstration of ...

New technology that invites expressive, two-way communication between a person and the soft, flexible object they are holding ...

"To take Germany prior to 1600 as an example, organ pitch there is thought to have varied from a high of A=567 Hz for the first simple pipe organs of the Middle Ages to a low of A=377 Hz for the early ...