Stereocilia is located in epididymis and its function is for reabsorption of sperm.
Epididymis on pseudo stratified columnar calls.
Long and few - or one - are flagella, short and numerous are called cilia.
hair cells are located within the organ of Corti on a thin basilar membrane in the cochlea of the inner ear. They derive their name from the tufts of stereocilia that protrude from the apical surface of the cell, a structure known as the hair bundle, into the scala media, a fluid-filled tube within the cochlea. Mammalian cochlear hair cells come in two anatomically and functionally distinct types: the outer and inner hair cells. Damage to these hair cells results in decreased hearing sensitivity, i.e. sensorineural hearing loss.
It protects the body from harmful materials from passing through the nasal canal. It captures things like dust to help prevent possible problems. It is a form of body defense.
They are called villus (singular), and villi (plural) or microvilli.they are called villihope this helpedThe finger-like projections that line the small intestine is called the villi.
Examples of visible cell projections include:Neural Axons in neuronsFlagellum in flagellatesCilia in ciliatesPseudopodia in AmoeboidsFilopodia in migrating cells.
microvilli stereocilia cilia
stereocilia
Ductus deferens, epidymis, innear ear
Organ of Corti; These hair-like projections (microvilli), called cilia and stereocilia, contain endings of the cochlear branch of the 8th cranial nerve.
The loss of stereocilia, as a result of constant exposure to loud noises, for instance, would reduce hearing sensitivity and could lead to deafness.
how much the stereocilia of the hair cells are bent
Long and few - or one - are flagella, short and numerous are called cilia.
increased pressure in the scala vestibulipressure wave depresses basilar membraneinner hairs move closer to tectorial membranethe stereocilia bendtip-link protein opens potassium channelsdepolarization in hair cells occursthis is based off of McGraw-Hill information.
Sensory nerves are the nerves that allow people to experience taste, touch, smell, sight, and hearing. For sight, there are photoreceptors; for hearing, there is stereocilia; for touch, there are motor neurons, and for smell there are olfactory sensory nerves.
In the cochlear (organ responsible for hearing) and the vestibular apparatus (organ responsible for balance-sense) the sensory neuron is called a 'hair-cell'. Its name is related to the appearance of the cell, which contains hair like projections on the apical surface called 'stereocilia'.
Hmm, interesting. The question reminds me that I need to brush up on my anatomy. Anyway, I think the answer that you are looking for is "perilymph" (the watery fluid which shakes around following stimulation from the stapes (bone)) and "stereocilia" (which are essentially "hair-like" extensions which track and measure the movement of the perilymph). And thank you for giving me the opportunity to brush up on my ear anatomy!
hair cells are located within the organ of Corti on a thin basilar membrane in the cochlea of the inner ear. They derive their name from the tufts of stereocilia that protrude from the apical surface of the cell, a structure known as the hair bundle, into the scala media, a fluid-filled tube within the cochlea. Mammalian cochlear hair cells come in two anatomically and functionally distinct types: the outer and inner hair cells. Damage to these hair cells results in decreased hearing sensitivity, i.e. sensorineural hearing loss.