high pitched vibrations activate hair cells located near the oval window
High-pitched sounds have a higher frequency compared to low-pitched sounds.
Low frequency sounds are detected in the ear by the hair cells located in the cochlea, specifically in the apex or helicotrema region. These hair cells are responsible for converting sound vibrations into electrical signals that are then transmitted to the brain via the auditory nerve.
Higher pitched sounds are typically easier to hear underwater compared to lower pitched sounds. The reason for this is that water is a denser medium than air, which results in faster attenuation of lower frequency sounds and better transmission of higher frequency sounds.
Low-pitched sounds from the bands will have lower frequencies compared to high-pitched sounds. Low frequencies are associated with deep, bassy tones, while high frequencies are associated with sharper, more piercing tones.
The brain distinguishes between high-pitched and low-pitched sounds based on the frequency of the sound waves. High-pitched sounds have a higher frequency, while low-pitched sounds have a lower frequency. The auditory system processes these differences to perceive variations in pitch.
High-pitched sounds have a higher frequency compared to low-pitched sounds.
Birds have high pitched sounds and women but men and lions have low pitched sounds........
Low frequency sounds are detected in the ear by the hair cells located in the cochlea, specifically in the apex or helicotrema region. These hair cells are responsible for converting sound vibrations into electrical signals that are then transmitted to the brain via the auditory nerve.
Cochlea
pinna-eardrum-ossicle-ovalwindow-cochlea..
The region of the ear that funnels sounds is called the Pinna. The Pinna collects sounds and acts like a funnel.
Higher pitched sounds are typically easier to hear underwater compared to lower pitched sounds. The reason for this is that water is a denser medium than air, which results in faster attenuation of lower frequency sounds and better transmission of higher frequency sounds.
of = ovf off= ofh
The basal end of the cochlea is typically responsible for processing lower frequency sounds, such as those produced by a bass singer. The hair cells in this region are stimulated by the low-frequency vibrations, sending electrical signals to the brain for processing.
Low-pitched sounds from the bands will have lower frequencies compared to high-pitched sounds. Low frequencies are associated with deep, bassy tones, while high frequencies are associated with sharper, more piercing tones.
true
Vocal cords produce low-pitched sounds when they vibrate slowly.