Scientists have made a major leap in ear imaging by using terahertz radiation to see inside the cochlea – an impossibly tiny, ...

It is fascinating that the tiny bones in the middle ear appear to have evolved from gills that were no longer needed. Figure 2 shows the path that sound waves follow from the sound source where they ...

In the evolution of the middle ear, the spiracle gill pouch and the hyomandibular bone play principle roles. We have already considered the evolution of the hyomandibular, quadrate and articular bones ...

A study of the inner ear bones of Neanderthals shows a significant loss of diversity in their shape around 110,000 years ago, suggesting a genetic bottleneck that contributed to Neanderthals' decline.

Yes — through the bones in our heads. Believe it or not, you don’t actually need the outer and middle parts of your ear to hear sound, because you’re not technically “hearing” anything.

When the sound waves reach the eardrum, the eardrum vibrates. The three bones of the middle ear are called the ossicles. These include the hammer, anvil, and stirrup. The eardrum and the ossicles ...

Anewly discovered mammal fossil may give clues to how bones in the middle ear evolved from jaw bones, according to a study published in Science yesterday (December 5). The malleus, incus, and ...

The eardrum vibrates in time with the music—really, the frequency of the sound—and transmits that vibration to tiny bones located in what’s called our middle ear. (From there, vibrations are ...

whereby vibrations transmit sound to your brain through the bones of your inner ear; but what about cartilage headphones? That's the novel method of sonic transmission used by Audio-Technica's ...