Your ear may be considered to have three major parts, the external ear, the middle ear, and the innerear.
The external ear comprises the parts that are exposed to the outside air, up to the ear drum. Attached to the innerpart of the eardrum are three tiny bones (the smallest bones in your body - grain sized.), and these in turn connect to an oval window, which is one of the boundaries of the inner ear. The inner ear is a tapering tube, arranged compactly as a spiral, and with a membrane dividing the tube into two lengthwise. Arranged along this dividing membrane, are numerous sensory hairs, each connected to its hair cell, and these to our auditory nerves.
The ear drum vibrates in response to a sound, and this moves the series of three middle ear bones. Their arrangement helps the ear to deal with the huge range of sounds we encounter. The third of these is the stapes, which in turn vibrates the oval window, and passes the sound wave (now a vibration) to the fluid-filled cochlea. The vibrations in the cochlea, in turn activate the many thousands of hair cells (grouped according to frequency), and these send an electrical signal to the brain for interpretation.
[Mammals have a 3-bone middle ear, and a 1-bone jaw. Earlier species in evolution have a 2-bone middle ear, and a 2-bone jaw.] The middle ear is ventilated to the atmosphere via your Eustachian tube, and when this becomes blocked by an infection, (or by rapid change in altitude e.g. air travel), we experience pain due to the ear drum being pressurized.
[Located in the general vicinity of your ear are your balance organs, but these are not part of the hearing process. Birds have a magnificent 3-axis set of balance tubes, land animals have a good set, and fish have rather inferior set of balance tubes. [It doesn't matter so much if a fish falls over!]]
gathers sound waves.
You use your ears to hear sounds. Sound waves enter the ear canal and cause the eardrum to vibrate. These vibrations are then transmitted through the middle ear to the cochlea in the inner ear, where they are converted into electrical signals that are sent to the brain for interpretation as sound.
You talk right into the cone to tell somebody something so that they can hear insted of the sound wave traveling in all directions, instead the sound wave will go into the cone which will lead into yoour ear causing little bones to viberate that will carry the sound or whatever the persn is saying will lead into your eardrum.
The outer ear, including the pinna and ear canal, collects sound waves from the environment and funnels them into the ear canal. It also helps in localizing the source of a sound by capturing and amplifying sound waves. The shape of the outer ear helps in enhancing certain frequencies of sound before they reach the middle and inner ear for further processing.
When you hear someone shout, the sound waves cause the eardrum (tympanic membrane) in your ear to vibrate. These vibrations are then transmitted through the ossicles (tiny bones in the middle ear) to the cochlea in the inner ear, where they are converted into electrical signals that are sent to the brain for processing. This entire process allows you to perceive the sound of the shout.
when you hear things, its really sound waves. the sound waves enter your ear, then it vibrates the ear drum.
with your ear
It is to hear sound
no because sound is thecnacly the vibrations in your ear so no ear no sound
it creates gaps in the air and then goes to your ear
The ear
Sound Waves are collected by the out ear and channeldeed along the Ear canal to the ear drum,
Ears, a brain, components in the ear (ear drum, ear canals etc.)
gathers sound waves.
By ear because sound keep on vibrating until it reaches our ear
The rumbling sound you hear in your ear may be caused by muscle contractions in the middle ear, changes in blood flow, or a buildup of earwax. It is important to consult a healthcare professional for a proper diagnosis and treatment.
The difference in hearing the sound with your right ear before your left ear is due to the time it takes for the sound waves to travel from the source to each ear. Sound waves travel faster through air than through the bones in your skull, which causes a slight delay in hearing the sound with the ear furthest from the source.