AskDefine | Define ear

Dictionary Definition



1 the sense organ for hearing and equilibrium
2 good hearing; "he had a keen ear"; "a good ear for pitch"
3 the externally visible cartilaginous structure of the external ear [syn: auricle, pinna]
4 attention to what is said; "he tried to get her ear"
5 fruiting spike of a cereal plant especially corn [syn: spike, capitulum]

User Contributed Dictionary



Etymology 1

Old English ēare, from Germanic *auson, from Indo-European *h₂ous-. Cognate with Dutch oor, German Ohr, Swedish öra; and with Ancient Greek , Latin auris, Russian ухо.


  1. The organ of hearing, consisting of the pinna, auditory canal, eardrum, malleus, incus, stapes and cochlea.
  2. The external part of the organ of hearing, the auricle.
  3. A police informant.
    • Quotations:
    From the movie The Enforcer.
    If you don’t cooperate, I’ll put it out on the street that you’re an ear.
organ of hearing
slang: police informant
Derived terms
See lookfrom ear


  1. The fruiting body of a grain plant.
    He is in the fields, harvesting ears of corn.
fruiting body of a grain plant

Etymology 3

Old English erian


  1. To plough.
    • Quotations:
    1595, William Shakespeare, Richard II
    That power I have, discharge; and let them go
    To ear the land that hath some hope to grow,
    For I have none.
archaic: to plough


Old English

Etymology 1

Akin to Old Norse aur


ēar m

Etymology 2

Common Germanic *ahiz, whence also Old High German ahir (German Ähre), Old Saxon ahar (Dutch aar), Old Norse ax. From a Proto-Indo-European root ak ('pointed'); compare Latin acus "needle"


  1. ear (of corn)

West Frisian



Extensive Definition

The ear is the sense organ that detects sounds. The vertebrate ear shows a common biology from fish to humans, with variations in structure according to order and species. It not only acts as a receiver for sound, but plays a major role in the sense of balance and body position. The ear is part of the auditory system.
The word "ear" may be used correctly to describe the entire organ or just the visible portion. In most animals, the visible ear is a flap of tissue that is also called the pinna. The pinna may be all that shows of the ear, but it serves only the first of many steps in hearing and plays no role in the sense of balance. In people, the pinna is often called the auricle. Vertebrates have a pair of ears, placed symmetrically on opposite sides of the head. This arrangement aids in the ability to localize sound sources.

Introduction to ears and hearing

Audition is the scientific name for the perception of sound. Sound is a form of energy that moves through air, water, and other matter, in waves of pressure. Sound is the means of auditory communication, including frog calls, bird songs and spoken language. Although the ear is the vertebrate sense organ that recognizes sound, it is the brain and central nervous system that "hears". Sound waves are perceived by the brain through the firing of nerve cells in the auditory portion of the central nervous system. The ear changes sound pressure waves from the outside world into a signal of nerve impulses sent to the brain.
The outer part of the ear collects sound. That sound pressure is amplified through the middle portion of the ear and, in land animals, passed from the medium of air into a liquid medium. The change from air to liquid occurs because air surrounds the head and is contained in the ear canal and middle ear, but not in the inner ear. The inner ear is hollow, embedded in the temporal bone, the densest bone of the body. The hollow channels of the inner ear are filled with liquid, and contain a sensory epithelium that is studded with hair cells. The microscopic "hairs" of these cells are structural protein filaments that project out into the fluid. The hair cells are mechanoreceptors that release a chemical neurotransmitter when stimulated. Sound waves moving through fluid push the filaments; if the filaments bend over enough it causes the hair cells to fire. In this way sound waves are transformed into nerve impulses. In vision, the rods and cones of the retina play a similar role with light as the hair cells do with sound. The nerve impulses travel from the left and right ears through the eighth cranial nerve to both sides of the brain stem and up to the portion of the cerebral cortex dedicated to sound. This auditory part of the cerebral cortex is in the temporal lobe.
The part of the ear that is dedicated to sensing balance and position also sends impulses through the eighth cranial nerve, the VIIIth nerve's Vestibular Portion. Those impulses are sent to the vestibular portion of the central nervous system. The human ear can generally hear sounds with frequencies between 20 Hz and 20 kHz (the audio range). Although the sensation of hearing requires an intact and functioning auditory portion of the central nervous system as well as a working ear, human deafness (extreme insensitivity to sound) most commonly occurs because of abnormalities of the inner ear, rather than the nerves or tracts of the central auditory system.

Mammalian ear

The shape of outer ear of mammals varies widely across species. However the inner workings of mammalian ears (including humans') are very similar.

Parts of the ear

Outer ear (pinna, ear canal, surface of ear drum)

The outer ear is the most external portion of the ear. The outer ear includes the pinna (also called auricle), the ear canal, and the very most superficial layer of the ear drum (also called the tympanic membrane). In humans, and almost all vertebrates, the only visible portion of the ear is the outer ear. Although the word "ear" may properly refer to the pinna (the flesh covered cartilage appendage on either side of the head), this portion of the ear is not vital for hearing. The outer ear does help get sound (and imposes filtering), but the ear canal is very important. Unless the canal is open, hearing will be dampened. Ear wax (medical name - cerumen) is produced by glands in the skin of the outer portion of the ear canal. This outer ear canal skin is applied to cartilage; the thinner skin of the deep canal lies on the bone of the skull. Only the thicker cerumen-producing ear canal skin has hairs. The outer ear ends at the most superficial layer of the tympanic membrane. The tympanic membrane is commonly called the ear drum.
The pinna helps direct sound through the ear canal to the tympanic membrane (eardrum). The framework of the auricle consists of a single piece of yellow fibrocartilage with a complicated relief on the anterior, concave side and a fairly smooth configuration on the posterior, convex side. The Darwinian tubercle, which is present in some people, lies in the descending part of the helix and corresponds to the true ear tip of the long-eared mammals. The lobule merely contains subcutaneous tissue. In some animals with mobile pinnae (like the horse), each pinna can be aimed independently to better receive the sound. For these animals, the pinnae help localize the direction of the sound source. Human beings localize sound within the central nervous system, by comparing arrival-time differences and loudness from each ear, in brain circuits that are connected to both ears. This process is commonly referred to as EPS, or Echo Positioning System.
Human outer ear and culture
The auricles also have an effect on facial appearance. In Western societies, protruding ears (present in about 5% of ethnic Europeans) have been considered unattractive, particularly if asymmetric. The first surgery to reduce the projection of prominent ears was published in the medical literature in 1881.
The ears have also been ornamented with jewelry for thousands of years, traditionally by piercing of the earlobe. In some cultures, ornaments are placed to stretch and enlarge the earlobes to make them very large. Tearing of the earlobe from the weight of heavy earrings, or from traumatic pull of an earring (for example by snagging on a sweater being removed), is fairly common. The repair of such a tear is usually not difficult.
A cosmetic surgical procedure to reduce the size or change the shape of the ear is called an otoplasty. In the rare cases when no pinna is formed (atresia), or is extremely small (microtia) reconstruction the auricle is possible. Most often, a cartilage graft from another part of the body (generally, rib cartilage) is used to form the matrix of the ear, and skin grafts or rotation flaps are used to provide the covering skin. However, when babies are born without an auricle on one or both sides, or when the auricle is very tiny, the ear canal is ordinarily either small or absent, and the middle ear often has deformities. The initial medical intervention is aimed at assessing the baby's hearing and the condition of the ear canal, as well as the middle and inner ear. Depending on the results of tests, reconstruction of the outer ear is done in stages, with planning for any possible repairs of the rest of the ear.

Middle ear

The middle ear, an air-filled cavity behind the ear drum (tympanic membrane), includes the three ear bones or ossicles: the malleus (or hammer), incus (or anvil), and stapes (or stirrup). The opening of the Eustachian tube is also within the middle ear. The malleus has a long process (the manubrium, or handle) that is attached to the mobile portion of the eardrum. The incus is the bridge between the malleus and stapes. The stapes is the smallest named bone in the human body. The three bones are arranged so that movement of the tympanic membrane causes movement of the malleus, which causes movement of the incus, which causes movement of the stapes. When the stapes footplate pushes on the oval window, it causes movement of fluid within the cochlea (a portion of the inner ear).
In humans and other land animals the middle ear (like the ear canal) is normally filled with air. Unlike the open ear canal, however, the air of the middle ear is not in direct contact with the atmosphere outside the body. The Eustachian tube connects from the chamber of the middle ear to the back of the pharynx. The middle ear is very much like a specialized paranasal sinus, called the tympanic cavity; it, like the paranasal sinuses, is a hollow mucosa-lined cavity in the skull that is ventilated through the nose. The mastoid portion of the human temporal bone, which can be felt as a bump in the skull behind the pinna, also contains air, which is ventilated through the middle ear. Normally, the Eustachian tube is collapsed, but it gapes open both with swallowing and with positive pressure. When taking off in an airplane, the surrounding air pressure goes from higher (on the ground) to lower (in the sky). The air in the middle ear expands as the plane gains altitude, and pushes its way into the back of the nose and mouth. On the way down, the volume of air in the middle ear shrinks, and a slight vacuum is produced. Active opening of the Eustachian tube is required to equalize the pressure between the middle ear and the surrounding atmosphere as the plane descends. The diver also experiences this change in pressure, but with greater rates of pressure change; active opening of the Eustachian tube is required more frequently as the diver goes deeper into higher pressure.
The arrangement of the tympanic membrane and ossicles works to efficiently couple the sound from the opening of the ear canal to the cochlea. There are several simple mechanisms that combine to increase the sound pressure. The first is the "hydraulic principle". The surface area of the tympanic membrane is many times that of the stapes footplate. Sound energy strikes the tympanic membrane and is concentrated to the smaller footplate. A second mechanism is the "lever principle". The dimensions of the articulating ear ossicles lead to an increase in the force applied to the stapes footplate compared with that applied to the malleus. A third mechanism channels the sound pressure to one end of the cochlea, and protects the other end from being struck by sound waves. In humans, this is called "round window protection", and will be more fully discussed in the next section.
Abnormalities such as impacted ear wax (occlusion of the external ear canal), fixed or missing ossicles, or holes in the tympanic membrane generally produce conductive hearing loss. Conductive hearing loss may also result from middle ear inflammation causing fluid build-up in the normally air-filled space. Tympanoplasty is the general name of the operation to repair the middle ear's tympanic membrane and ossicles. Grafts from muscle fascia are ordinarily used to rebuild an intact ear drum. Sometimes artificial ear bones are placed to substitute for damaged ones, or a disrupted ossicular chain is rebuilt in order to conduct sound effectively.

Inner ear: cochlea, vestibule, and semi-circular canals

The inner ear includes both the organ of hearing (the cochlea) and a sense organ that is attuned to the effects of both gravity and motion (labyrinth or vestibular apparatus). The balance portion of the inner ear consists of three semi-circular canals and the vestibule. The inner ear is encased in the hardest bone of the body. Within this ivory hard bone, there are fluid-filled hollows. Within the cochlea are three fluid filled spaces: the tympanic canal, the vestibular canal, and the middle canal. The eighth cranial nerve comes from the brain stem to enter the inner ear. When sound strikes the ear drum, the movement is transferred to the footplate of the stapes, which presses into one of the fluid-filled ducts of the cochlea. The fluid inside this duct is moved, flowing against the receptor cells of the Organ of Corti, which fire. These stimulate the spiral ganglion, which sends information through the auditory portion of the eighth cranial nerve to the brain.
Hair cells are also the receptor cells involved in balance, although the hair cells of the auditory and vestibular systems of the ear are not identical. Vestibular hair cells are stimulated by movement of fluid in the semicircular canals and the utricle and saccule. Firing of vestibular hair cells stimulates the Vestibular portion of the eighth cranial nerve.

Damage to the human ear

Outer ear trauma

The auricle can be easily damaged. Because it is skin-covered cartilage, with only a thin padding of connective tissue, rough handling of the ear can cause enough swelling to jeopardize the blood-supply to its framework, the auricular cartilage. That entire cartilage framework is fed by a thin covering membrane called the perichondrium (meaning literally: around the cartilage). Any fluid from swelling or blood from injury that collects between the perichondrium and the underlying cartilage puts the cartilage in danger of being separated from its supply of nutrients. If portions of the cartilage starve and die, the ear never heals back into its normal shape. Instead, the cartilage becomes lumpy and distorted. Wrestler's Ear is one term used to describe the result, because wrestling is one of the most common ways such an injury occurs. Cauliflower ear is another name for the same condition, because the thickened auricle can resemble that vegetable.
The lobule of the ear (ear lobe) is the one part of the human auricle that normally contains no cartilage. Instead, it is a wedge of adipose tissue (fat) covered by skin. There are many normal variations to the shape of the ear lobe, which may be small or large. Tears of the earlobe can be generally repaired with good results. Since there is no cartilage, there is not the risk of deformity from a blood clot or pressure injury to the ear lobe.
Other injuries to the external ear occur fairly frequently, and can leave a major deformity. Some of the more common ones include, laceration from glass, knives, and bite injuries, avulsion injuries, cancer, frostbite, and burns.
Ear canal
Ear canal injuries can come from firecrackers and other explosives, and mechanical trauma from placement of foreign bodies into the ear. The ear canal is most often self-traumatized from efforts at ear cleaning. The outer part of the ear canal rests on the flesh of the head; the inner part rests in the opening of the bony skull (called the external auditory meatus). The skin is very different on each part. The outer skin is thick, and contains glands as well as hair follicles. The glands make cerumen (also called ear wax). The skin of the outer part moves a bit if the pinna is pulled; it is only loosely applied to the underlying tissues. The skin of the bony canal, on the other hand, is not only among the most delicate skin in the human body, it is tightly applied to the underlying bone. A slender object used to blindly clean cerumen out of the ear often results instead with the wax being pushed in, and contact with the thin skin of the bony canal is likely to lead to laceration and bleeding.

Middle ear trauma

Like outer ear trauma, middle ear trauma most often comes from blast injuries and insertion of foreign objects into the ear. Skull fractures that go through the part of the skull containing the ear structures (the temporal bone) can also cause damage to the middle ear. Small perforations of the tympanic membrane usually heal on their own, but large perforations may require grafting. Displacement of the ossicles will cause a conductive hearing loss that can only be corrected with surgery. Forcible displacement of the stapes into the inner ear can cause a sensory neural hearing loss that cannot be corrected even if the ossicles are put back into proper position. Because human skin has a top waterproof layer of dead skin cells that are constantly shedding, displacement of portions of the tympanic membrane or ear canal into the middle ear or deeper areas by trauma can be particularly traumatic. If the displaced skin lives within a closed area, the shed surface builds up over months and years and forms a cholesteatoma. The -oma ending of that word indicates a tumour in medical terminology, and although cholesteatoma is not a neoplasm (but a skin cyst), it can expand and erode the ear structures. The treatment for cholesteatoma is surgical.

Inner ear trauma

There are two principal damage mechanisms to the inner ear in industrialized society, and both injure hair cells. The first is exposure to elevated sound levels (noise trauma), and the second is exposure to drugs and other substances (ototoxicity). In 1972 the U.S. EPA told Congress that at least 34 million people were exposed to sound levels on a daily basis that are likely to lead to significant hearing loss. The worldwide implication for industrialized countries would place this exposed population in the hundreds of millions.

Vestigial structures

It has long been known that humans, and indeed other primates such as the orangutan and chimpanzee have ear muscles that are minimally developed and non-functional, yet still large enough to be easily identifiable. These undeveloped muscles are vestigial structures. A muscle that cannot move the ear, for whatever reason, can no longer be said to have any biological function. This serves as evidence of homology between related species. In humans there is variability in these muscles, such that some people are able to move their ears in various directions, and it has been said that it may be possible for others to gain such movement by repeated trials.
Simpler structures allow arthropods to detect near field sounds. Spiders and cockroaches, for example, have hairs on their legs which are used for detecting sound. Caterpillars may also have hairs on their body that perceive vibrations and allow them to respond to the sound.


See also

ear in Afrikaans: Oor
ear in Arabic: أذن
ear in Aymara: Jinchu
ear in Azerbaijani: Qulaq
ear in Bengali: কর্ণ (অঙ্গ)
ear in Min Nan: Hīⁿ
ear in Bavarian: Ohrwaschl
ear in Bosnian: Uho
ear in Breton: Skouarn
ear in Bulgarian: Ухо
ear in Catalan: Oïda
ear in Chuvash: Хăлха
ear in Czech: Ucho
ear in Welsh: Clust
ear in Danish: Øre
ear in German: Ohr
ear in Estonian: Kõrv
ear in Modern Greek (1453-): Αυτί
ear in Spanish: Oído
ear in Esperanto: Orelo
ear in Persian: گوش
ear in French: Oreille
ear in Scottish Gaelic: Cluas
ear in Galician: Orella
ear in Korean: 귀
ear in Hindi: कान
ear in Croatian: Uho
ear in Ido: Orelo
ear in Igbo: Nti
ear in Indonesian: Telinga
ear in Icelandic: Eyra
ear in Italian: Orecchio
ear in Hebrew: אוזן
ear in Javanese: Kuping
ear in Latin: Auris
ear in Lithuanian: Ausis
ear in Lojban: kerlo
ear in Hungarian: Fül
ear in Malayalam: ചെവി
ear in Marathi: कान
ear in Malay (macrolanguage): Telinga
ear in Min Dong Chinese: Ngê
ear in Dutch: Oor
ear in Japanese: 耳
ear in Norwegian: Øre
ear in Norwegian Nynorsk: Øyre
ear in Narom: Ouothelle
ear in Occitan (post 1500): Aurelha (omonimia)
ear in Pangasinan: Layag
ear in Polish: Ucho
ear in Portuguese: Orelha
ear in Romanian: Ureche
ear in Quechua: Rinri
ear in Russian: Ухо
ear in Albanian: Veshi
ear in Sicilian: Aricchiu
ear in Simple English: Ear
ear in Slovak: Ucho
ear in Slovenian: Uho
ear in Serbian: Уво
ear in Sundanese: Ceuli
ear in Finnish: Korva
ear in Swedish: Öra
ear in Tagalog: Tainga
ear in Telugu: చెవి
ear in Thai: หู
ear in Vietnamese: Tai
ear in Tajik: Гӯш
ear in Turkish: Kulak
ear in Ukrainian: Вухо
ear in Võro: Kõrv
ear in Yiddish: אויער
ear in Yoruba: Etí
ear in Dimli: Goş
ear in Chinese: 耳

Synonyms, Antonyms and Related Words

Eustachian tube, advertence, advertency, alertness, anvil, assiduity, assiduousness, attention, attention span, attentiveness, audibility, audience, audition, auditory apparatus, auditory canal, auditory meatus, auditory nerve, auditory ossicles, auditory tube, aural examination, aural sense, auricle, auscultation, awareness, basilar membrane, bilge, blain, bleb, blister, blob, bony labyrinth, boss, bow, bubble, bugging, bulb, bulge, bulla, bump, bunch, burl, button, cahot, care, cauliflower ear, chine, clump, cob, cochlea, concentration, conch, concha, condyle, conference, consciousness, consideration, convex, corncob, diligence, dowel, drumhead, eager attention, ear lobe, ear of corn, eardrum, earnestness, eavesdropping, electronic surveillance, endolymph, examination by ear, external ear, favorable attention, flange, flap, gall, gnarl, hammer, handle, hearing, heed, heedfulness, heeding, hill, hump, hunch, hushed attention, incus, inner ear, intentiveness, intentness, interview, jog, joggle, knob, knot, knur, knurl, lip, listening, listening in, lobe, lobule, loop, lug, lump, malleus, mark, mastoid process, mealie, middle ear, mind, mindfulness, mole, mountain, nevus, note, notice, nub, nubbin, nubble, observance, observation, organ of Corti, outer ear, oval window, papilloma, peg, perilymph, pinna, rapt attention, regard, regardfulness, remark, respect, rib, ridge, ring, round window, secondary eardrum, semicircular canals, sense of hearing, shell, shoulder, spike, spine, stapes, stirrup, stud, style, tab, thought, tryout, tubercle, tubercule, tympanic cavity, tympanic membrane, tympanum, verruca, vesicle, vestibule, wale, wart, welt, wiretapping
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