Sound is funnel into our ear canal by our ear. The sound then hits a sack of fluid and causes the water inside to ripple. Hairs in the sack detect how much vibration is in the water at different areas of the sack and send the information to our brain
Different wavelengths and frequencies of light are interpreted as different colours; those of sound are interpreted as pitch.
Different wavelengths and frequencies of light are interpreted as different colours; those of sound are interpreted as pitch.
The characteristics of an audio sound wave can be analyzed and interpreted by looking at its frequency, amplitude, and waveform. Frequency determines the pitch of the sound, amplitude determines the volume, and waveform shows the shape of the sound wave. By studying these aspects, we can understand the properties and qualities of the sound wave.
Longitudinal wave Which can be in turn interpreted as a transverse wave. It has frequency, amplitude, crests & through.
The Cochlea, but techinically it's the inner ear.
Sound travels through the air - causing the ear-drum to vibrate. This sends impulses to teh brain which is interpreted as sound.
Yes, a tree falling in the forest creates vibrations that can be interpreted as sound, even if there is no one there to hear it.
Sound energy is used for hearing. Sound waves travel through the air and vibrate the eardrum, which sends signals to the brain that are interpreted as sound.
The hairs in the cochlea are responsible for producing the nerve impulses that travel to the brain's temporal lobes to be interpreted as sound.
The sound is caused by vibrations in the air, creating waves that travel to our ears and are interpreted by our brain as sound. Different frequencies and amplitudes of vibrations result in different sounds.
Sound is received by the ear when sound waves travel through the air and cause the eardrum to vibrate. These vibrations are transmitted to the inner ear where they are converted into electrical signals that are interpreted by the brain as sound.
vibrates, causing air particles to bump into each other and create waves that travel through the air as sound waves. These sound waves are then perceived by our ears and interpreted by our brain as sound.