The part which is responsible for dynamic balance is the semicircular canals while the one responsible for static balance is the vestibule, which is primarily composed of saccule and utricle.
The utricle, saccule, and their respective maculae, located in the vestibule of the inner ear, are the main structures involved in static equilibrium. They detect changes in head position and linear acceleration to help maintain balance and posture.
The temporal bone is the cranial bone that houses the structures involved in hearing and balance, such as the inner ear.
http://healing.about.com/od/sound/a/secrets_voice_3.htm "The balance-organ in the inner ear controls every muscle of your body. The muscles communicate with the nerve of the balance-organ via the spinal chord. The nerve of the balance-organ collaborates with the nerve of the hearing-organ. "
The cerebellum, located at the back of the brain, primarily controls balance and coordination. It receives information from the inner ear to help maintain balance and posture. Both sides of the brain are involved in controlling and processing balance, but the cerebellum plays a significant role in this function.
You primarily use the cerebellum when trying to balance on one foot. The cerebellum coordinates muscular activity and helps maintain balance and posture. Additionally, sensory input from the inner ear and proprioceptive receptors in the joints and muscles are also involved in balance control.
It is the vestibule and the semicircular ducts are involved with the dynamic equilibrium.
The utricle, saccule, and their respective maculae, located in the vestibule of the inner ear, are the main structures involved in static equilibrium. They detect changes in head position and linear acceleration to help maintain balance and posture.
An inner class declared as static is treated as if it were a normal top-level class.
The temporal bone is the cranial bone that houses the structures involved in hearing and balance, such as the inner ear.
The inner ear includes the three semicircular canals. They (plus the base of each called the ampullaris) are involved in:1. Static Equilibrium in the ampulla which contains the sense for position of head when body is not moving.2. Dynamic Equilibrium in the semicircular canals which senses rotation and movement of head and body.Both are involved in balance and position.
The ear is responsible for a human's sense of balance. Balance is basically determined by the amount of fluid found in one's inner ear.
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 parts of the ear that function in static equilibrium are the utricle and the saccule, which are located in the vestibule of the inner ear. These structures contain specialized sensory cells and are responsible for detecting the position of the head with respect to gravity. They help maintain balance and stability when the body is not in motion.
The sensory receptor for static equilibrium is the vestibule located in the inner ear. The vestibule contains two structures called the utricle and saccule, which detect changes in head position and orientation to help maintain balance.
it is for balance and sound
http://healing.about.com/od/sound/a/secrets_voice_3.htm "The balance-organ in the inner ear controls every muscle of your body. The muscles communicate with the nerve of the balance-organ via the spinal chord. The nerve of the balance-organ collaborates with the nerve of the hearing-organ. "
Declaring an inner class static means that class only has access to the "outer" class public and private static fields. A non-static inner class has access to the outer class's instance data. Top-level classes cannot be declared static. The advantage of a static inner class is that it doesn't need an instance of the containing class to work and it's bytecode class size is smaller for that reason - less overhead.