They are a type of motion sensor, as the movements of the cilia are communicated to the brain.
Semi-Circular canals
Assuming you mean the semi-circular canals in the ear... they help keep us balanced.
semi-circular canals for dynamic equilibrium and vestibule for static equilibrium
The inner ear consists of the bony labyrinth, a hollow cavity in the temporal bone of the skull with a system of passages comprising two main functional parts: -- the cochlea, dedicated to hearing -- the vestibular system, dedicated to balance The cochlea transforms vibrations into nerve impulses for the brain. On the opposite side of the vestibule are the three semi-circular canals, which provide nerve signals on the motion of the body along 3 axes. There are otolithic structures in the vestibule (called the utricle and saccule) that provide information on the relative position of the head and body.
the three fluid filled semi-circular canals. during movement, the fluid in the canals moves, causing the gelatinous materials and the hair cells in the ampulla to move. When the hair cells are bent, a nerve impulse is stimulated
The function of semi circular canal in the ear is balance and orientation
vestibule, semi-circular canals, and cochlea
Semi-Circular canals
equillibrium is balance and the semi circular canals in the ear affect it
They are a type of motion sensor, as the movements of the cilia are communicated to the brain.
semi-circular canals. These are just for balance
Assuming you mean the semi-circular canals in the ear... they help keep us balanced.
semi-circular canals for dynamic equilibrium and vestibule for static equilibrium
semi-circular canals
They are the organ of balance.
It is the part of the earth called the inner was, more specifically the semi circular canals for balance
The inner ear consists of the bony labyrinth, a hollow cavity in the temporal bone of the skull with a system of passages comprising two main functional parts: -- the cochlea, dedicated to hearing -- the vestibular system, dedicated to balance The cochlea transforms vibrations into nerve impulses for the brain. On the opposite side of the vestibule are the three semi-circular canals, which provide nerve signals on the motion of the body along 3 axes. There are otolithic structures in the vestibule (called the utricle and saccule) that provide information on the relative position of the head and body.