Saccule, otoliths, utricle, and semicircular ducts.
Vestibule
semi-circular canals for dynamic equilibrium and vestibule for static equilibrium
The vestibulocochlear nerve also known as the eighth cranial nerve transmits sound and equilibrium and is common to the hearing and equilibrium functions of the inner ear.
internal ear. C
The middle ear, outer ear, and inner ear are the three parts of the ear.
The vestibular system, part of the inner ear, functions in maintaining static equilibrium.
Vestibule
macula for static equilibrium and cristae for dynamic equilibrium. All are found in the inner ear.
semi-circular canals for dynamic equilibrium and vestibule for static equilibrium
It is the vestibule and the semicircular ducts are involved with the dynamic equilibrium.
We find the structures for balance in the inner ear. They include, for dynamic equilibrium, the semi-circular canal, and for static equilibrium, the vestibule (which contains the utricle and saccule).
The hair cells within the vestibule and semicircular canals of the cochlea are responsible for both aspects of equilibrium (dynamic and static).Vestibular system
The receptors for static equilibrium are located in the inner ear of humans.
equillibrium is balance and the semi circular canals in the ear affect it
Also called maculae provide information on head position (static equilibrium), as well as linear acceleration and deceleration, a type of dynamic equilibrium. The maculae consist of hair cells with hair bundles and supporting cells.
The inner ear
two types of balance are there,STATIC balance and DYNAMIC balance.dynamic balance,that is during movement,is maintained by the SPECIAL HAIR CELLS in the 3 semicircular canals present in internal ear[or LABYRINTH] WHILE STATIC balance is maintained by the SACCULUS $ UTRICULUS,, also the part of labyrinth.