Pain is an important physiological response in living organisms. While physical pain is an outcome of tissue damage, pain can ...

The content discusses the fundamentals of acoustics, focusing on sound refraction, the anatomy of the ear, and how sound ...

Supersonic tunnel trials suggest the X-59’s shape can scatter shock waves, paving the way for hush-hush high-speed flight.

Incantations, music, and chanting have been used in rites and rituals since the beginning of time, with roots in ancient ...

The power of sound reaches far beyond your ears. While you're used to hearing sound through music, voices, or noise, your body is also quietly listening—at the cellular level. Recent research shows ...

A stellar concert is playing out in the night sky, and scientists are learning how to listen to it like never before. Deep inside stars, sound waves move through hot gas, creating vibrations.

Scientists at Nagoya University used Japan's extensive network of GNSS receivers to create the first 3D images of atmospheric disturbances caused by the 2024 Noto Peninsula Earthquake.

A quiet revolution is taking shape in the world of physics, and it doesn’t rely on exotic particles or massive particle colliders. Instead, it begins with something much more familiar—sound.

Japanese researchers discovered that specific sound frequencies (440 Hz and 14 kHz) can alter gene expression in mice cells, inhibiting fat cell differentiation and reducing lipid accumulation.

UChicago Medicine is using a new technology to destroy liver tumors without radiation, chemotherapy or even cutting the skin.

New research suggests that sound waves can influence cellular activity, including stopping the development of fat.

Sound waves travel through different types of matter, including liquid water. Importantly, the movement of ocean water can greatly affect how sound waves travel from one point to another.