frogs have ears on the the side of their goose
Englas porfavor
using the tympanum, its hearing organ
Frogs have ears just like people do but they are not quite as visible. From the outside, they look like flat disks or circles on the side of the frog's head, but on the inside the work just the same as ours.
Frogs and Toads have an external eardrum called the tympanun but the ear does not have an external structure that protrudes like a human or dog.
The eardrum is just behind each eye. This connects the sound to the hearing structures inside. These eardrums are sometimes difficult to see.
Frog communication is simple. They can emit a sound indicating danger. They most often are hear when the males make sounds as part of the mating ritual and for indicating there territory.
It is also conjectured that a second organ near the lungs may be involved in detecting sound.
Frogs have ears but they not visible. A ear is usually divided into three parts
A) External ear
B) Middle ear
C) Internal ear
In frogs external ear is absent. They have middle and internal ears. So they can hear any sounds just like humans.
The spots of a frog have tiny little openings and the sound waves travel 5000 cm per second and they travel up to the ear in the inside and go straight to the brain so the frog and sense where their coming from. In other words, travel through the body to the brain.
A frog's ear has an outside covering which allows the it to protect itself when a frog is underwear, and still allow it to hear what is going on nearby.
A tympandum is an external hearing structure found in frogs, toads, and some mammals. For frogs, it is located behind the eye.
Sound waves technically enter through the Auricle, the outside, visible part of the ear. From there, they hit the Tympanic Membrane (ear drum) and vibrate the ossicles (small bones in the ear), where the waves are transferred into the cochlea and organ of corti, where they're detected and changed to nerve impulses.
Sound waves are 'collected' by the ear drum. This is a film stretched across the ear canal. Much like it's namesake, it responds to sound waves by vibrating. These vibrations are read as electrical signals by your nerves, and it is transmitted to brain as impulses.
Sound waves enter the ear, go through the ear canal to the ear drum, through the middle ear to the inner ear where the sound wave (vibrations) reach a mechanism called a cochlea which converts the vibrations to electrical impulses. The electrical information is guided via nerve cells to the brain which interprets the electrical information as sounds.
The two are different because Sound waves are longitudinal mechanical waves, but light waves are transverse electromagnetic waves, and sound requires a medium through which to travel, but light doesn't. Basically, Sound waves move sort of differently than Light waves.
The auricle or pinna of the outer ear acts like a horn to capture the sound waves which are then tunneled into the auditory canal and strike the tympanic membrane (eardrum).
when you hear things, its really sound waves. the sound waves enter your ear, then it vibrates the ear drum.
Ear canal
The ear canal.
yes
Sound waves first enter the outer ear, which consists of the pinna (visible portion) and the ear canal. The pinna helps collect sound waves and directs them into the ear canal. The sound waves then travel through the ear canal and reach the eardrum (tympanic membrane) at the end of the canal.
Sound waves technically enter through the Auricle, the outside, visible part of the ear. From there, they hit the Tympanic Membrane (ear drum) and vibrate the ossicles (small bones in the ear), where the waves are transferred into the cochlea and organ of corti, where they're detected and changed to nerve impulses.
to funnel or pass sound waves through the ear to the middle ear
Ear defenders don't reflect sound waves, they absorb or reduce the amplitude of the sound.
Sound waves enter through the outer ear, then sound waves move through the ear canal. Next sound waves strike the eardrum, causing it to vibrate, then vibrations enter the middle ear. Then the hammer picks up the vibrations, then vibrations are passed to the anvil. Next the vibrations are transmitted to the stirrup, then a vibrating membrane transmits vibrations to the inner ear, and then vibrations are channeled into the cochlea. Then nerve cells detect vibrations and convert them to electrical impulses, then electrical impulses are transmitted to the brain. Then the brain interprets electrical impulses as sound.
The Pinna/Pinnae collects the sound waves.
gather sound waves
ear drum